A Randomised Controlled Trial to Compare Two Supraglottic Airway Devices (Ambu AuraGain vs Air Q-3) in Terms of Performance Characteristics.

Not Applicable

Completed

• Conditions: Oropharyngeal Leak Pressure; Elective Surgery; Supraglottic Airway; General Anaesthesia

• Registration Number: NCT06914453
• Lead Sponsor: University of Malaya

Brief Summary

A supraglottic airway device (SAD) functions as a temporary device to maintain the patency of airway during the administration of anaesthesia. The Ambu AuraGain (Ambu, Ballerup, Denmark) is a second generation SAD, since introduced in 2014, has been widely used in clinical practice. The Ambu AuraGain is an anatomically curved, single-use supraglottic airway device that features a port for orogastric tube insertion and it is a conduit for intubation as well. It is also associated with fast insertion times and high seal pressures. The Air-Q3, on the other hand, is relatively new SAD, however rather similar to Ambu AuraGain, it is also anatomically curved with a built-up mask heel for improved seal and it serves as a conduit for intubation as it features a unique endotracheal tube ramp and epiglottis elevator which aids in fast easy and safe intubation. It also features a port for orogastric tube insertion. Given the relatively recent introduction of the Air-Q3 into the market, there exists a paucity of comprehensive data regarding its efficacy. Meanwhile, the Ambu AuraGain stands as one of the most frequently utilised SAD, especially in our centre. This randomized controlled trial aims to compare the performance characteristics of the Ambu AuraGain and Air Q-3 in 90 patients undergoing surgery under general anaesthesia. The primary objective is to evaluate oropharyngeal leak pressure (OLP), while secondary objectives includes time to insertion, first-pass success rate, ease of orogastric tube (OGT) insertion, laryngeal alignment using a fiberoptic scope, and incidence of postoperative complications.

Detailed Description

Preoperative assessment, encompassing history taking, physical examination, laboratory investigation, and a comprehensive explanation of the study, will be conducted the day prior to surgery. Patients will be instructed to fast for 6 hours for solid foods and 2 hours for clear fluids before elective surgery.

Patients will be randomly allocated to either the Air-Q3 group (n = 45) or the Ambu AuraGain group (n = 45) using a computer-generated randomization table. After recruitment, the enrolling investigator opens the sealed opaque envelopes that concealed group allocation. Patients will be blinded to their group allocation. Patients will not receive any premedication and will be positioned supine on the operating table, head in neutral position, rested on a gel head ring. Standard monitoring including basic physiological variables, including electrocardiography, pulse oximetry, non-invasive blood pressure monitoring, and end-tidal oxygen measurement using a circle circuit ventilator (Datex Ohmeda, Aespire, Marquet), will be performed prior to anaesthesia induction.

Following establishment of intravenous access, a standard anaesthesia induction protocol will be followed, involving preoxygenation with 100% inspired oxygen for 3 minutes, intravenous administration of Fentanyl (1-2mcg/kg), and Propofol (2-3mg/kg) until loss of consciousness. Subsequently, either the Air-Q3 or Ambu AuraGain will be lubricated and prepared according to manufacturers' recommendations. The airway device will be inserted when the jaw is sufficiently relaxed. The cuff of each device will be inflated with air to a final cuff pressure of 60cmH20. The cuff pressure is measured by a handheld manometer, The airway device insertions will be performed by experienced staff anaesthesiologists with more than ten years experience with supraglottic airway management, who had performed at least 10 Air-Q3 insertions prior to trial commencement.

SAD size selection will adhere to manufacturers' recommendations based on the patient's ideal body weight. Insertion time will be recorded from facemask removal until the presence of square wave capnography tracing. The presence of square wave capnography tracing denotes successful establishment of effective ventilation. Otherwise, the device will be removed completely for another insertion attempt. Failure to insert the SAD after two attempts will be deemed a failure.

After successful insertion of the airway device, it will be secured with tape over the patient's check. A gel plug is applied to the orogastric port and a suprasternal notch test (gentle tapping over the suprasternal notch results in the gel to pulsate, confirming tip location behind the cricoid cartilage) will be done to confirm placement. A 14 French gauge gastric tube, pre lubricated with a water soluble lubricant will be inserted through the nasogastric port for both devices. The ease of insertion will be graded from 1 to 3 (1 = easy, 2 = difficult, 3 = impossible). After successful insertion of the airway device, it will be secured with tape over the patient's check. A gel plug is applied to the orogastric port and a suprasternal notch test (gentle tapping over the suprasternal notch results in the gel to pulsate, confirming tip location behind the cricoid cartilage) will be done to confirm placement. A 14 French gauge gastric tube, pre lubricated with a water soluble lubricant will be inserted through the nasogastric port for both devices. The ease of insertion will be graded from 1 to 3 (1 = easy, 2 = difficult, 3 = impossible). Confirmation of correct orogastric tube placement will be established through aspiration of gastric contents or epigastric auscultation.

Oropharyngeal leak pressure will be determined by transiently halting ventilation and closing the adjustable pressure limiting valve up to 30cmH2O with a fresh gas flow of 3L/min. The airway pressure at equilibrium or when audible air leak is heard from the throat is recorded.

Following successful SAD insertion, fibreoptic scope assessment will be conducted to evaluate LMA placement, graded based on the standardized scale by Brimacombe:

1. Vocal cords not seen

2. Vocal cords plus anterior epiglottis visible

3. Vocal cords plus posterior epiglottis visible

4. Only vocal cords visible Maintenance of general anaesthesia will be with sevoflurane with minimum alveolar concentration 1 - 2 in an oxygen-air mixture.

Postoperatively, patients will be monitored in the recovery room, with physiological variables including non-invasive blood pressure, heart rate, pulse oximetry, and respiratory rate continuously monitored. Upon full consciousness and recovery, a blinded investigator will assess for the presence of sore throat.

Study Timeline

• Study Start: 2024-07-26
• Primary Completion: 2025-01-24
• Study Completion: 2025-01-24
• Status Verified: 2025-03
• Study First Submitted: 2025-03-31
• Study First Submitted QC: 2025-03-31
• Last Update Submitted: 2025-04-05
• Study First Posted: 2025-04-06
• Last Update Posted: 2025-04-09

Recruitment & Eligibility

• Status: COMPLETED
• Sex: All
• Target Recruitment: 90

Inclusion Criteria

• Adult patients (age 18 to 65 years) of either sex, who are scheduled for an elective surgery under general anaesthesia
• Patients with ASA physical status of I or II.

Exclusion Criteria

• Patients with anticipated difficult airway (Airway Difficulty Score >8)
• Patients with high risk of aspiration and regurgitation
• Patients with body mass index (BMI) > 40kg/m2
• Patients who exhibit evidence of upper respiratory tract infection
• Patients with history of radiotherapy to the neck
• Patients who are pregnant
• Patients who are unable or unwilling to consent for the study
• Patients who are mentally challenged and unable to understand the study instructions
• Planned operating time more than 4 hours

Study & Design

• Study Type: INTERVENTIONAL
• Study Design: PARALLEL

Primary Outcome Measures

Name	Time	Method
Oropharyngeal leak pressure (OLP) of the Air-Q3 and Ambu AuraGain supraglottic airway device	After induction of general anaesthesia until successful insertion of supraglottic airway device	After induction of general anaesthesia, either one supraglottic airway device will be inserted, Oropharyngeal leak pressure will be determined by transiently halting ventilation and closing the adjustable pressure limiting valve up to 30cmH2O with a fresh gas flow of 3L/min. The airway pressure at equilibrium or when audible air leak is heard from the throat is recorded.

Secondary Outcome Measures

Name	Time	Method
Other performance characteristics in terms of time to insertion, first pass success rate, ease of orogastric tube (OGT) insertion.	After induction of anaesthesia until comfirmation of correct orogastric tube placement will be established through aspiration of gastric contents or epigastric auscultation	Time of insertion will be recorded during the insertion of the airway device, the number of attempts to successful insertion will also be recorded. The ease of insertion of gastric tube will be graded from 1 to 3 (1 = easy, 2 = difficult, 3 = impossible).
Laryngeal alignment using fibreoptic scope by employing the standardised scale developed by Brimacombe	After insertion of supraglottic airway device till performing fibreoptic scope assessment	Following successful SAD insertion, fibreoptic scope assessment will be conducted to evaluate LMA placement, graded based on the standardized scale by Brimacombe: 1. Vocal cords not seen; 2. Vocal cords plus anterior epiglottis visible; 3. Vocal cords plus posterior epiglottis visible; 4. Only vocal cords visible
Incidence of complications of using both SADs such as post operative sore throat	From extubation until full consciousness in recovery area	Post extubation, patient will be assessed for presence of sore throat

Trial Locations

Locations (1)

Department of Anaesthesiology, Faculty of Medicine; 🇲🇾 Kuala Lumpur, Selangor, Malaysia