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Trial registered on ANZCTR

Registration number

ACTRN12619000613101

Ethics application status

Approved

Date submitted

15/04/2019

Date registered

24/04/2019

Date last updated

30/06/2024

Date data sharing statement initially provided

24/04/2019

Type of registration

Prospectively registered

Titles & IDs

Public title

Investigation of improved nasal high flow to enhance carbon dioxide (CO2) clearance and maintain oxygen saturation during shared airway surgery

Scientific title

Investigation of improved nasal high flow to enhance CO2 clearance and maintain oxygen saturation during shared airway surgery

Secondary ID [1]

None

Universal Trial Number (UTN)

U1111-1230-7056

Trial acronym

Linked study record

Health condition

Health condition(s) or problem(s) studied:

Destauration/oxygenation during anaesthesia

airway management

Condition category

Condition code

Anaesthesiology

Anaesthetics

Intervention/exposure

Study type

Interventional

Description of intervention(s) / exposure

Nasal High flow with non-constant flow, 30-100l/min.
This therapy will be delivered from a prototype flow controller coupled with a humidifier, water chamber and breathing circuit. Relative humidity will be approximately 100% at 37degC.

The therapy will be administered under the direction of an anaesthetist through a non sealing nasal interface to patients presenting for shared airway surgery in an operating room. The therapy will be delivered continuously for a minimum of 25 minutes and a maximum of 40 minutes from induction of anaesthesia.
We will record any times where the intervention is halted at the request of the surgeon or anaesthetist

Flow sub-study:
A sub study, already approved under the same ethics approval, will be conducted to investigate flows coming out of the suspension laryngoscope. This sub study will be conducted in ten patients, recruited sequentially from patients participating in the main study. The inclusion and exclusion criteria are identical to the main study. A measurement of the flow rate coming from the suspension laryngoscope will be made at the conclusion of the patient's surgery (i.e. immediately after measurements in the main study). The study involves placing a flowmeter into the suspension laryngoscope via an adaptor. Readings from the flow meter are captured by a computer and logged for 60s. The pressure in the laryngoscope, which is a variable in the main study, will continue to be recorded during this sub study. Recruitment will be from the first suitable surgical list in September 2023 until ten patients have been recruited, expected to take 3-6 months, i.e. recruitment is expected to be from September 2023 until March 2024. Results from this sub study will be analysed and published as soon as they are available, regardless of whether the main study has concluded.

Intervention code [1]

Treatment: Devices

Comparator / control treatment

Nasal high flow with constant flow (70l/min)
This therapy will be delivered from a prototype flow controller coupled with a humidifier, water chamber and breathing circuit. Relative humidity will be approximately 100% at 37degC.
The therapy will be administered under the direction of an anaesthetist through a non sealing nasal interface to patients presenting for shared airway surgery in an operating room. The therapy will be delivered continuously for a minimum of 25 minutes and a maximum of 40 minutes from induction of anaesthesia, where the end of the study will be determined by the surgical procedure length or at the request of the anasethetist.
We will record any times where the control is halted at the request of the surgeon or anaesthetist (e.g. when other airway management tools are employed)

Control group

Active

Outcomes

Primary outcome [1]

Change in arterial CO2 from baseline as measured by arterial blood gas sample during shared airway surgery over the period 5-25 minutes.
An arterial blood gas sample will be taken from an arterial line and a standard blood gas analyser will be used to determine the PaCO2.

Timepoint [1]

Over the period from 5 minutes post induction to 25 minutes post induction

Secondary outcome [1]

Proportion of patients with PaCO2>8kPa (60mmHg)
An arterial blood gas sample will be taken from an arterial line and a standard blood gas analyser will be used to determine the PaCO2.

Timepoint [1]

t = 0,5,10,15,20, 25, 30, 35, 40 minutes (where t=0 is the time of induction)

Secondary outcome [2]

time to reach PaCO2>8kPa.
An arterial blood gas sample will be taken from an arterial line and a standard blood gas analyser will be used to determine the PaCO2.

Timepoint [2]

time to reach PaCO2>8kPa as assessed from arterial blood gas samples taken every 2.5 minutes.
An arterial blood gas sample will be taken from an arterial line and a standard blood gas analyser will be used to determine the PaCO2.

Secondary outcome [3]

maximum PaCO2
An arterial blood gas sample will be taken from an arterial line and a standard blood gas analyser will be used to determine the PaCO2.

Timepoint [3]

Over the period from 5 minutes post induction to 25 minutes post induction every 2.5 minutes

Secondary outcome [4]

maximum change in PaCO2 from baseline. An arterial blood gas sample will be taken from an arterial line and a standard blood gas analyser will be used to determine the PaCO2.

Timepoint [4]

Over the period from 5 minutes post induction to 25 minutes post induction every 2.5 minutes

Secondary outcome [5]

minimum pH
An arterial blood gas sample will be taken from an arterial line and a standard blood gas analyser will be used to determine the pH.

Timepoint [5]

Over the period from 5 minutes post induction to 25 minutes post induction every 2.5 minutes

Secondary outcome [6]

maximum change in pH from baseline
An arterial blood gas sample will be taken from an arterial line and a standard blood gas analyser will be used to determine the pH.

Timepoint [6]

Over the period from 5 minutes post induction to 25 minutes post induction every 2.5 minutes

Secondary outcome [7]

proportion of patients with pH<7.2
An arterial blood gas sample will be taken from an arterial line and a standard blood gas analyser will be used to determine the pH.

Timepoint [7]

t = 0,5,10,15,20, 25, 30, 35, 40 minutes

Secondary outcome [8]

oxygen saturation (Time SpO2<90%) as measured continuously with a standard pulse oximeter

Timepoint [8]

Over the period from 5 minutes post induction to 25 minutes post induction

Secondary outcome [9]

minimum Oxygen saturation as measured continuously with a standard pulse oximeter

Timepoint [9]

Over the period from 5 minutes post induction to 25 minutes post induction

Secondary outcome [10]

mean Oxygen saturation as measured continuously with a standard pulse oximeter

Timepoint [10]

Over the period from 5 minutes post induction to 25 minutes post induction

Secondary outcome [11]

mean PaO2
An arterial blood gas sample will be taken from an arterial line and a standard blood gas analyser will be used to determine the PaO2.

Timepoint [11]

Over the period from 5 minutes post induction to 25 minutes post induction every 2.5 minutes

Secondary outcome [12]

minimum PaO2
An arterial blood gas sample will be taken from an arterial line and a standard blood gas analyser will be used to determine the PaO2.

Timepoint [12]

Over the period from 5 minutes post induction to 25 minutes post induction every 2.5 minutes

Secondary outcome [13]

post-surgical rating by surgeon of the overall effect on the surgical field on a 100mm visual analogue scale with anchors “no effect” to “incompatible with this surgical application”.

Timepoint [13]

end of procedure

Secondary outcome [14]

usability from the perspective of the surgeon, especially the stability of the surgical field as measured by the proportion of time that the surgeon asks for the therapy to be switched off

Timepoint [14]

end of procedure

Secondary outcome [15]

post-surgical free comments by surgeon. The surgeon will be invited to dictate comeents that will be recorded on the case report form.

Timepoint [15]

end of procedure

Secondary outcome [16]

Pressure as measured with a pressure transducer connected to the port of the suspension laryngascope. This will be used to confirm airway pressure .

Timepoint [16]

From placement of laryngascope until 25 minutes after induction. Sampling rate is 100Hz.

Secondary outcome [17]

degree of movement of the vocal chords as measured by video imaging

Timepoint [17]

To be measured during the procedure when the surgeon determines the measurement will not adversely affect the procedure.

Secondary outcome [18]

Exhaled CO2 as measured with a capnograph connected to the port of the suspecnsion laryngascope. This will be used to confirm CO2 clearance.

Timepoint [18]

From 25 minutes after induction until the end of the procedure

Secondary outcome [19]

Flow out of the suspension laryngoscope.
The gas flow will be measured with a standard flow meter (Sensirion 3200 or similar) connected to the top of the laryngascope with a custom adaptor..

Timepoint [19]

At end of surgery. Note: this secondary outcome is a sub study as described in 'Description of intervention'. As such recruitment in this sub study will be from September 2023 until March 2024.

Eligibility

Key inclusion criteria

• 18 years and over and less than 80 years in age
• Capable of informed consent
• Undergoing laryngotrachael surgery under general anaesthetic expected to last at least 15 minutes

Minimum age

18 Years

Maximum age

80 Years

Sex

Both males and females

Can healthy volunteers participate?

Key exclusion criteria

• BMI > 35 kg/m2.
• Patients who are deemed unfit for general anaesthesia and/or THRIVE treatment by the anaesthetist.
• Room-air saturation levels <85%
• requiring preoperative oxygen therapy secondary to chronic lung disease
• Pre-existing hypoxemia
• clinically-defined severe concomitant lower airway pulmonary disease
• Known contraindication to Optiflow™ device
• Patients in whom CPAP is contraindicated (e.g. pneumothorax, bullous lung disease, craniofacial trauma, airway, foreign body, unstable haemodynamics)
• history or symptoms of increased intracranial pressure or reduced intracranial compliance ( e.g. headaches, nausea and vomiting, visual changes, mental changes) .
• skull base defects.
• Patients in whom high FiO2 is contraindicated (e.g. patients being treated with Bleomycin)
• Patients undergoing procedures with electrocautery or laser.
• More than 50% (as judged by the anaesthetist) of the nares occluded by the nasal prongs
• Bleeding in nose or oropharynx
• Patients receiving an induction with volatile anaesthetics
• Patients with delicate skin that could be thermally damaged by the transcutaneous monitor

Study design

Purpose of the study

Treatment

Allocation to intervention

Randomised controlled trial

Procedure for enrolling a subject and allocating the treatment (allocation concealment procedures)

Sealed envelopes

Methods used to generate the sequence in which subjects will be randomised (sequence generation)

Simple randomisation using a randomisation table created by computer software (i.e. computerised sequence generation)

Masking / blinding

Blinded (masking used)

Who is / are masked / blinded?

The people receiving the treatment/s

Intervention assignment

Parallel

Other design features

Phase

Not Applicable

Type of endpoint/s

Efficacy

Statistical methods / analysis

A power calculation was performed by the study statistician using published data on similar studies and an assumed reduction in rate of rise of PaCO2 of 15%.

The primary endpoint and the secondary PaCO2 endpoints will be compared between randomised groups using ANCOVA using the 5 minute PaCO2 level as the covariate.

Recruitment

Recruitment status

Recruiting

Date of first participant enrolment

Anticipated

28/10/2020

Actual

28/10/2020

Date of last participant enrolment

Anticipated

31/12/2024

Actual

Date of last data collection

Anticipated

31/12/2024

Actual

Sample size

Target

Accrual to date

Final

Recruitment outside Australia

Country [1]

New Zealand

State/province [1]

Auckland

Funding & Sponsors

Funding source category [1]

Commercial sector/Industry

Name [1]

Fisher & Paykel Healthcare

Address [1]

15 Maurice Paykel Place
East Tamaki
Auckland 2013

Country [1]

New Zealand

Primary sponsor type

Commercial sector/Industry

Name

Fisher & Paykel Healthcare

Address

15 Maurice Paykel Place
East Tamaki
Auckland 2013

Country

New Zealand

Secondary sponsor category [1]

University

Name [1]

University of Auckland

Address [1]

Faculty of Medical and Health Sciences
The University of Auckland
Private Bag 92019
Auckland 1142

Country [1]

New Zealand

Ethics approval

Ethics application status

Approved

Ethics committee name [1]

Health and Disability Ethics Commitee - Northern B

Ethics committee address [1]

Ministry of Health, 
Level 3,Rangitoto Room, Unisys Building, 
650 Great South Road, Penrose, 
Auckland 1051

Ethics committee country [1]

New Zealand

Date submitted for ethics approval [1]

07/05/2019

Approval date [1]

07/10/2019

Ethics approval number [1]

19NTB98

Summary

Brief summary

In shared airway surgery the anaesthetist and surgeon both require access to the airway. Consequently there are some unique challenges in achieving gas exchange (providing oxygen and removing carbon dioxide) in apnoeic patients. Usual practice in general anaesthesia would be to ventilate the patient through a secure airway such as an endotracheal tube or laryngeal mask; however such airway devices make performing surgery in the airway difficult or impossible.
Recently a new technique called Optiflow THRIVE has been reported and its use is rapidly increasing. In this technique, high flows of humidified oxygen at 70l/min are provided to the patient via nasal cannula throughout the procedure. This assists in maintaining oxygen saturation and clears some, but not all, of the carbon dioxide being produced.
The objective of the research described here is to evaluate a modification of the Optiflow THRIVE technique to provide greater clearance of carbon dioxide.

Trial website

Trial related presentations / publications

Public notes

Contacts

Principal investigator

Name

Prof Alan Merry

Address

Faculty of Medical and Health Sciences
The University of Auckland
Private Bag 92019
Auckland 1142

Country

New Zealand

Phone

+64 9 923 5751

Fax

[email protected]

Contact person for public queries

Name

Matthew Payton

Address

Fisher&Paykel Healthcare
15 Maurice Paykel Place
Auckland 2013

Country

New Zealand

Phone

+64 9 5740100

Fax

[email protected]

Contact person for scientific queries

Name

Matthew Payton

Address

Fisher&Paykel Healthcare
15 Maurice Paykel Place
Auckland 2013

Country

New Zealand

Phone

+64 9 574 0100

Fax

[email protected]

Data sharing statement

Will individual participant data (IPD) for this trial be available (including data dictionaries)?

Yes

What data in particular will be shared?

Data relating to the primary outcomes (PaCO2) and selected secondary outcomes (those where the data is in a practical form to share including PaO2, pH, SpO2, transcutaneous O2 and CO2, Surgeon satisfaction score)

When will data be available (start and end dates)?

From the completion of the trial for a minimum of 5 years and a maximum of 10 years.

Available to whom?

1. Investigators with applicable consents and ethical approvals.
2. Regulatory bodies

Available for what types of analyses?

Meta analyses or similar reviews
Data verification

How or where can data be obtained?

Following a written request, if the Principal Investigator and Sponsor both approve, then data would be made available as anonymised electronic records.

What supporting documents are/will be available?

Doc. No.	Type	Citation	Link	Email	Other Details	Attachment
12094	Study protocol			[email protected]

Results publications and other study-related documents

Documents added manually

No documents have been uploaded by study researchers.

Documents added automatically

No additional documents have been identified.

Trial Review

Documents added manually

Documents added automatically