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Trial registered on ANZCTR

Registration number

ACTRN12622001235796

Ethics application status

Approved

Date submitted

9/09/2022

Date registered

13/09/2022

Date last updated

13/09/2022

Date data sharing statement initially provided

13/09/2022

Type of registration

Prospectively registered

Titles & IDs

Public title

The protective versus conventional ventilation during laparoscopic surgery trial

Scientific title

A pragmatic, randomized, multi-centre trial of protective versus conventional ventilation on the incidence of acute respiratory failure in adults patients undergoing major laparoscopic surgery

Secondary ID [1]

Nil known

Universal Trial Number (UTN)

Trial acronym

Linked study record

Health condition

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

Post-operative pulmonary complications

Major laparoscopic surgery

Condition category

Condition code

Anaesthesiology

Other anaesthesiology

Surgery

Other surgery

Intervention/exposure

Study type

Interventional

Description of intervention(s) / exposure

Low tidal volume and high positive end-expiratory pressure (6 ml/kg of predicted body weight and 12 cmH2O of positive end-expiratory pressure) will be delivered via a mechanical ventilatory during major laparoscopic surgery with an expected during of more than two hours. It is anticipated minimum and maximum duration that the ventilation will be applied will be 2.5 hours to 6 hours, depending on the length of the procedure. The intervention will be administered and monitored by the treating anaesthetist. Adherence to the allocation intervention arm will be via an audit of operation reports.

Intervention code [1]

Prevention

Comparator / control treatment

Conventional tidal volumes and high positive end-expiratory pressure (10 ml/kg of predicted body weight and 5 cmH2O of positive end-expiratory pressure) will be delivered via a mechanical ventilatory during major laparoscopic surgery with an expected during of more than two hours. It is anticipated minimum and maximum duration that the ventilation will be applied will be 2.5 hours to 6 hours, depending on the length of the procedure. The intervention will be administered and monitored by the treating anaesthetist. Adherence to the allocation intervention arm will be via an audit of operation reports.

Control group

Active

Outcomes

Primary outcome [1]

Acute respiratory failure (defined as a postoperative PaO2 < 60 mmHg on room air, a PaO2 to FiO2 ratio of less than 300 mmHg or arterial oxyhaemoglobin saturation measured with pulse oximetry less than 90% and requiring oxygen therapy during the first 7 in-hospital post-operative days.

Timepoint [1]

A review of hospital records will be performed to determine the onset of acute respiratory failure as documented in the patient's electronic medical record for a period of 7 days after the laparoscopic surgery was performed.

Secondary outcome [1]

Pneumonia (defined as need of antibiotics for a suspected respiratory infection and one or more of the following criteria: new or changed sputum, new or changed lung opacities, fever and/or white blood cell count greater than 12x10^9/Litre during the first 7 in-hospital post-operative days.

Timepoint [1]

A review of hospital records will be performed to determine the onset of pneumonia as documented in the patient's electronic medical record for a period of 7 days after the laparoscopic surgery was performed.

Secondary outcome [2]

Bronchospasm (defined as newly detected expiratory wheeze treated with bronchodilators) during the first 7 in-hospital post-operative days.

Timepoint [2]

A review of hospital records will be performed to determine the onset of bronchospasm as documented in the patient's electronic medical record for a period of 7 days after the laparoscopic surgery was performed.

Secondary outcome [3]

Atelectasis (defined as lung opacification with a shift of the mediastinum, hilum or hemidiaphragm toward the affected area, and compensatory over-inflation in the adjacent non-atelectatic lung) during the first 7 in-hospital post-operative days.

Timepoint [3]

A review of hospital records will be performed to determine the onset of atelectasis as documented in the patient's electronic medical record for a period of 7 days after the laparoscopic surgery was performed.

Secondary outcome [4]

Acute respiratory distress syndrome as per the Berlin definition during the first 7 in-hospital post-operative days.

Timepoint [4]

A review of hospital records will be performed to determine the onset of acute respiratory distress syndrome as documented in the patient's electronic medical record for a period of 7 days after the laparoscopic surgery was performed.

Secondary outcome [5]

Pulmonary congestion (defined as clinical signs of congestion, including dyspnoea, oedema, rales, and jugular venous distention, with or without chest x-ray demonstrating increase in vascular markings and diffuse alveolar interstitial infiltrates) during the first 7 in-hospital post-operative days.

Timepoint [5]

A review of hospital records will be performed to determine the onset of pulmonary congestion as documented in the patient's electronic medical record for a period of 7 days after the laparoscopic surgery was performed.

Secondary outcome [6]

Pleural effusion (defined as chest radiograph demonstrating blunting of the costophrenic angle, loss of sharp silhouette of the ipsilateral hemidiaphragm in upright position, evidence of displacement of adjacent anatomical structures or [in supine position] a hazy opacity in one hemithorax with preserved vascular shadows) during the first 7 in-hospital post-operative days.

Timepoint [6]

A review of hospital records will be performed to determine the onset of pleural effusion as documented in the patient's electronic medical record for a period of 7 days after the laparoscopic surgery was performed.

Secondary outcome [7]

Pneumothorax (defined as air in the pleural space with no vascular bed surrounding the visceral pleura) during the first 7 in-hospital post-operative days.

Timepoint [7]

A review of hospital records will be performed to determine the onset of pneumothorax as documented in the patient's electronic medical record for a period of 7 days after the laparoscopic surgery was performed.

Secondary outcome [8]

Requirement for unplanned invasive mechanical ventilation during the first 7 in-hospital post-operative days.

Timepoint [8]

A review of hospital records will be performed to determine the requirement for unplanned need of invasive ventilation as documented in the patient's electronic medical record for a period of 7 days after the laparoscopic surgery was performed.

Secondary outcome [9]

Requirement for non-invasive mechanical ventilation during the first 7 in-hospital post-operative days.

Timepoint [9]

A review of hospital records will be performed to determine the requirement for unplanned need of non-invasive ventilation as documented in the patient's electronic medical record for a period of 7 days after the laparoscopic surgery was performed.

Eligibility

Key inclusion criteria

Equal to or greater than 40 years
Scheduled to have major laparoscopic surgery (including robotic surgery) with an expected duration of more than two hours
Expected to have invasive arterial pressure monitoring as part of their routine care

Minimum age

40 Years

Maximum age

No limit

Sex

Both males and females

Can healthy volunteers participate?

Key exclusion criteria

Pregnancy
Scheduled to have cardiac, thoracic, or intracranial neurological surgery
Need of nitrous oxide administration
Previously had lung surgery
Planned reintubation after surgery (e.g., planned re-operations)
Received invasive ventilation for longer than 12 hours within the last 30 days prior to surgery
Any other contra-indication to hypercapnia
Previous randomization into this clinical trial

Study design

Purpose of the study

Prevention

Allocation to intervention

Randomised controlled trial

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

Allocation concealment is via central randomisation by computer

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

Simple randomisation will be used a randomisation table created by computer software and will include stratification by centre, body mass index (equal to or less than 35 or greater than 35 kilograms per metre squared) and age (equal to or less than 65 years and greater than 65 years).

Masking / blinding

Blinded (masking used)

Who is / are masked / blinded?

The people analysing the results/data

Intervention assignment

Parallel

Other design features

Phase

Not Applicable

Type of endpoint/s

Safety/efficacy

Statistical methods / analysis

A detailed statistical analysis plan will be prepared before patient enrolment, and it will be published or made available electronically. All analyses will be conducted according to the intention-to-treat principle. No or minimal losses to follow–up for the primary and secondary outcomes are anticipated. Complete–case analysis will be carried out for all the outcomes, that is, excluding patients with missing data. However, if more than 1% of missing data were found for the primary outcome, a sensitivity analysis using multiple imputations and estimating–equation methods will be carried out.

The effect of protective versus conventional arm on the primary outcome will be assessed will be assessed using absolute differences with 95% confidence interval calculated from mixed-effect generalized linear model with binomial distribution and identity link. For the binary secondary and tertiary outcomes, the same strategy will be employed. ICU and hospital length of stay will be compared using Fine-Gray competing risk models and reported as subdistribution hazard ratio with 95% confidence interval.

The effect of the intervention on the primary outcome will be assessed in the following pre-specified subgroups:
Aged less than 65 years vs. greater than 65 years
Body mass index of equal to or less than 35 kg/metre s vs. greater than 35 kg/metre squared
Non-emergency vs. emergency surgery
ARISCAT equal to or less than 26 vs. greater than 26; and
Non-robotic vs. robotic surgery.

The effect on subgroups will be evaluated according to the interaction effects between each subgroup and the study arms in the proposed model and presented in a forest plot.

As additional analyses, the effect of the interventions on the primary outcome will be re-estimated using models with adjustment for the following covariates at baseline: age, ARISCAT Risk calculator for postoperative pulmonary complications, and the American Society of Anesthesiologists (ASA). In all analyses, centres will be as random effects.

Recruitment

Recruitment status

Not yet recruiting

Date of first participant enrolment

Anticipated

3/10/2022

Actual

Date of last participant enrolment

Anticipated

Actual

Date of last data collection

Anticipated

Actual

Sample size

Target

1750

Accrual to date

Final

Recruitment in Australia

Recruitment state(s)

VIC

Recruitment hospital [1]

Austin Health - Austin Hospital - Heidelberg

Recruitment postcode(s) [1]

3084 - Heidelberg

Funding & Sponsors

Funding source category [1]

Hospital

Name [1]

Austin Health

Address [1]

145 Studley Road
Heidelberg
Victoria 3084

Country [1]

Australia

Primary sponsor type

Hospital

Name

Austin Health

Address

145 Studley Road
Heidelberg
Victoria 3084

Country

Australia

Secondary sponsor category [1]

Individual

Name [1]

Dr Heidi Gaulke

Address [1]

Austin Health
Austin Hospital,
145 Studley Road
Heidelberg
Victoria 3084

Country [1]

Australia

Ethics approval

Ethics application status

Approved

Ethics committee name [1]

Austin Health Human Research Ethics Committee

Ethics committee address [1]

145 Studley Road
Heidelberg VIC 3084

Ethics committee country [1]

Australia

Date submitted for ethics approval [1]

24/11/2021

Approval date [1]

22/04/2022

Ethics approval number [1]

HREC/81399/Austin-2021

Summary

Brief summary

Many patients are admitted to hospital each year for a laparoscopic surgical procedure. At times, the procedure requires general anaesthesia and mechanical ventilation. General anaesthesia means that you will be unaware of the procedure as it is happening and mechanical ventilation involves the placement of a breathing tube into the upper airway to support breathing and oxygenation.

Two key components of mechanical ventilation are tidal volume (volume of air breathed and positive-end expiratory pressure (PEEP)(pressure in the lungs after breathing out). Traditionally, for patients having laparoscopic surgery conventional tidal volumes (10 to 15 ml per kilogram of predicted body weight) are used as a means to prevent low-blood oxygen or lung tissue collapse. However, studies involving people suggests that high tidal volumes are injurious to healthy lungs and can cause localised inflammation. Similarly, accumulating data from observational and small randomized controlled human studies have found that high tidal volumes can damage the lungs. Conversely, using low tidal volumes (6 ml per kilogram of predicated body weight) during mechanical ventilation has been shown to be beneficial in patients suffering from acute respiratory distress syndrome. Indeed, low tidal volume ventilation has been adopted for the management of critically ill patients at risk of respiratory distress syndrome.

At the present time it is unclear whether a higher tidal volume strategy – conventional ventilation, or a lower tidal volume strategy – known as protective ventilation, during mechanical ventilation for patients having laparoscopic surgery requiring general anaesthesia. 

We believe that the information obtained from this study will help anaesthetists to better manage the ventilator management for patients who are having a laparoscopic surgical procedure that requires general anaesthesia.

This study will involve 1750 patients admitted to hospital to have laparoscopic surgery under general anaesthesia. The research has been initiated by the researchers at the Austin Hospital (Melbourne) and is anticipated it will take two years to complete.

Trial website

Trial related presentations / publications

Public notes

Contacts

Principal investigator

Name

Dr Dharshi Karalapillai

Address

Department of Intensive Care
Austin Hospital
145 Studley Road
Heidelberg VIC 3084

Country

Australia

Phone

+61394964835

Fax

+61394963932

[email protected]

Contact person for public queries

Name

Dharshi Karalapillai

Address

Department of Intensive Care
Austin Hospital
145 Studley Road
Heidelberg VIC 3084

Country

Australia

Phone

+61394964835

Fax

+61394963932

[email protected]

Contact person for scientific queries

Name

Dharshi Karalapillai

Address

Department of Intensive Care
Austin Hospital
145 Studley Road
Heidelberg VIC 3084

Country

Australia

Phone

+61394964835

Fax

+61394963932

[email protected]

Data sharing statement

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

No/undecided IPD sharing reason/comment

This is a small sample sized, pragmatic trial in which we do not plan on making de-identified individual participant data available unless approached in the future with a specific research question and a plan to obtain human ethical committee approval in advance of data sharing.

What supporting documents are/will be available?

Doc. No.	Type	Citation	Link	Email	Other Details	Attachment
16617	Study protocol			[email protected]	The PROtective versus CONventional Ventilation dur... [More Details]

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