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Trials / Terminated

TerminatedNCT03138005

Reduction of Oxygen After Cardiac Arrest

Reduction of Oxygen After Cardiac Arrest (EXACT): The EXACT Study

Status
Terminated
Phase
N/A
Study type
Interventional
Enrollment
428 (actual)
Sponsor
Monash University · Academic / Other
Sex
All
Age
18 Years
Healthy volunteers
Not accepted

Summary

The Reduction of oxygen after cardiac arrest (EXACT) is a multi-centre, randomised, controlled trial (RCT) to determine whether reducing oxygen administration to target an oxygen saturation of 90-94%, compared to 98-100%, as soon as possible following successful resuscitation from OHCA improves outcome at hospital discharge.

Detailed description

Currently out-of-hospital cardiac arrest (OHCA) patients who achieve ROSC are routinely ventilated with the highest fraction of inspired oxygen (FiO2) possible (i.e. FiO2 1.0 or 100% oxygen) until admission to an intensive care unit (ICU) - usually a period of 2 to 6 hours post-ROSC. Post-ROSC oxygen therapy begins in the field by emergency medical services (EMS). EMS typically deliver a high flow of oxygen at rate of \>10L/min (\~100% oxygen), and use a pulse oximeter to monitor oxygen levels (SpO2). Normal SpO2 levels are considered to be 94% to 100%. The delivery of 100% oxygen is then usually continued throughout a patient's stay in the emergency department (ED) and during any diagnostic testing (e.g. computed tomography scans and cardiac angiography). During this time, oxygen is delivered to patients who remain unconscious via a mechanical ventilator, with levels continuously monitored by pulse oximetry and periodically by a blood test called an arterial blood gas (ABG). The ABG measurements include the oxygen pressure in the blood (PaO2) in mmHg. Once a patient is admitted to the ICU, the PaO2 is assessed and the oxygen fraction is typically reduced and then titrated (reduced or increased) on the ventilator to achieve a normal level of PaO2 ("normoxia") of between 80-100mmHg. The administration of 100% oxygen for the first hours after resuscitation is based largely on convention and not on any supportive clinical data. It has been thought that maximizing oxygen delivery for several hours might be beneficial in a patient who has suffered profound deprivation of oxygen supply ("hypoxia") during a cardiac arrest. In addition, if a lower fraction of inspired oxygen is delivered, there is a perceived risk that the patient might become hypoxic (i.e. SpO2 \<90% or PaO2 \<80mmHg). Until recently, there has been no particular reason to recommend a decrease in oxygen delivery to the post-arrest patient prior to admission to ICU. However, recent systematic reviews of compelling experimental data and supportive human observational studies indicate that the administration of 100% oxygen can create "hyperoxic" levels in the early post arrest period which may lead to additional neurological injury, and thus result in worse clinical outcome. No randomised control trials have yet tested titrating oxygen administration to lower but normal levels (i.e. "normoxia"). EXACT is a Phase 3 multi-centre, randomised, controlled trial (RCT) aiming to determine whether reducing oxygen administration to target an oxygen saturation of 90-94%, compared to 98-100%, as soon as possible following successful resuscitation from OHCA improves outcome at hospital discharge.

Conditions

Interventions

TypeNameDescription
OTHERtarget SpO2 98-100%Prehospital, post-ROSC oxygen maintained at ≥10L/minute of oxygen (equivalent to \~100% oxygen) into SGA/ETT if hand ventilated or 100% (i.e. FiO2 of 1.0) oxygen settings if mechanically ventilated. Patients will continue on treatment to handover in the ED. Between arrival at ED and first ABG in ICU, the oxygen setting may then be decreased provided SpO2 is maintained between 98-100%.
OTHERtarget SpO2 90-94%Prehospital, post-ROSC oxygen reduced initially to 4L/minute (i.e. approximately 70% oxygen) into SGA/ETT if hand ventilated or an air mix setting if mechanically ventilated. If oxygen saturation remains ≥94% for 5 minutes, the oxygen flow rate will be further reduced to 2L/minute (i.e. approximately 46% oxygen) and hand ventilated to target an oxygen saturation between 90-94%. This treatment will continue to patient handover in the emergency department. Between arrival at ED and first ABG in ICU, oxygen will be titrated to target a oxygen saturation of 90-94%.

Timeline

Start date
2017-12-11
Primary completion
2020-08-05
Completion
2020-08-05
First posted
2017-05-03
Last updated
2025-10-02

Locations

21 sites across 1 country: Australia

Source: ClinicalTrials.gov record NCT03138005. Inclusion in this directory is not an endorsement.