ORI2 : ORI for hyperOxia Reduction in ICU

Intensive Care Units Clinical Trial

— ORI2  

Official title:

ORI2 : ORI for hyperOxia Reduction in ICU

Clinical Trial Details — Status: Completed

Administrative data

• NCT number: NCT02878460
• Other study ID #: CHU-P2016-04
• Secondary ID: 2016-A01026-45
• Status: Completed
• Phase: N/A
• Start date: April 27, 2017
• Est. completion date: May 22, 2018

Study information

• Verified date: November 2020
• Source: University Hospital, Angers
• Contact: n/a
• Is FDA regulated: No
• Study type: Interventional

Clinical Trial Summary

Recently, hyperoxia has been recognized as being potentially deleterious for critically ill patients, with increased duration of mechanical ventilation and even with increased mortality rates. This could be related to pulmonary lesions (including notably atelectasis) but also to increased tissue damage and organ dysfunctions, secondary to increased/induced oxidative stress. At last higher FiO2 led to "over-consumption" of oxygen and therefore to additional costs. Usually, FiO2 and oxygen flows are modified according to the monitoring of SpO2. But, it has also been recognized that modifying FiO2 (and oxygen flows) according to SpO2 monitoring is not routinely (or easily) done. Indeed, nurses (and doctors) are reluctant to reduce oxygen flows when everything appear under control.

The ORI (Oxygen Reserve Index) is an index measured using non-invasive SpO2 sensors (Rainbow sensors- MASIMO) that evaluates non-invasively PaO2 (partial pressure of oxygen). An ORI ≤0 indicates that PaO2 is less than 100 mmHg. When ORI increases (i.e. ORI≥0.01) PaO2 is higher than 100 mmHg. This index increases up to 1. ORI between 0.01 and 1 indicates that PaO2 is probably between 100 and 200 mmHg. Thus, monitoring critically ill patients using the ORI, may help identifying when PaO2 is high and when FiO2 (or oxygen flows in non-intubated patients) may be reduced. This could help reducing the time with hyperoxia (i.e. PaO2 ≥100 mmHg or ≥80 mmHg).

The purpose of this feasibility study is to evaluate if the use of ORI can help to decrease length of moderate hyperoxia (PaO2>100mmHg) in critically ill patients, in comparison with monitoring the SpO2 only.

Recruitment information / eligibility

• Status: Completed
• Enrollment: 150
• Est. completion date: May 22, 2018
• Est. primary completion date: May 22, 2018
• Accepts healthy volunteers: No
• Gender: All
• Age group: 18 Years and older

Eligibility

Inclusion Criteria:

• Patient hospitalized in ICU of Angers hospital

• Patient intubated and mechanically ventilated for an expected period of at least 2 days

Inclusion is to achieve within 6 hours after admission (for admitted patients intubated ) or at the time of intubation (for non- intubated patients on admission )

Exclusion Criteria:

• Pregnant Woman

Related Conditions & MeSH terms

• Hyperoxia
• Intensive Care Units

Intervention

Other:
• monitoring with ORI + SpO2
If ORI is equal to 0.00, the FiO2 (or oxygen flow) is not changed. if ORI is = 0.01, Nurses must decrease the FiO2 (or oxygen flow) by 10%, until ORI is =0. if SpO2 is < lower individualized limit, FiO2 (or oxygen flow) is increased by 10%, if it happens twice, doctors are called.
• monitoring with SpO2
If SpO2 is below the upper individualized limit, the FiO2 (or oxygen flow) is not changed. If SpO2 is equal or above this limit, Nurses must reduce the FiO2 (or oxygen flow) by 10% every 10 minutes until SpO2 is = upper individualized limit, with FiO2=25 %. if SpO2 is < lower individualized limit, FiO2 (or oxygen flow) is increased by 10%, if it happens twice, doctors are called.

Locations

Country	Name	City	State
France	Chu Angers	Angers

Sponsors (1)

Lead Sponsor	Collaborator
University Hospital, Angers

Country where clinical trial is conducted

France, 

References & Publications (1)

Lasocki S, Brochant A, Leger M, Gaillard T, Lemarié P, Gergaud S, Dupré P. ORI monitoring allows a reduction of time with hyperoxia in critically ill patients: the randomized control ORI(2) study. Intensive Care Med. 2019 Nov;45(11):1661-1662. doi: 10.100 — View Citation

Outcome

Type	Measure	Description	Time frame	Safety issue
Primary	Percentage of days with moderate hyperoxia	The primary endpoint is the percentage of days with moderate hyperoxia. Moderate hyperoxia is defined by a PaO2> 100 mmHg - measured on blood gases obtained in usual practicePaO2 will be followed by the inclusion until the end of mechanical ventilation or D28 or ICU discharge. The percentage of days with moderate hyperoxia is (number of days of moderate hyperoxia / number of days of oxygen therapy) x100. The follow up will occurs from inclusion to the end of mechanical ventilation or Day 28 if patient is still mechanically ventilated or ICU discharge	inclusion to the end of mechanical ventilation or Day 28 if patient is still mechanically ventilated or ICU discharge
Secondary	Minimum and maximum daily FiO2	The secondary endpoints are the minimum and maximum daily FiO2, obtained by respirator in each group. FiO2 will be followed by the inclusion until the end of oxygenotherapy or D28.	inclusion to the end of mechanical ventilation or Day 28 if patient is still mechanically ventilated or ICU discharge
Secondary	Minimum and maximum daily PaO2	The secondary endpoints are the minimum and maximum daily PaO2, (measured by blood gases obtained in usual practice ) . PaO2 will be followed by the inclusion until the end of oxygenotherapy or D28.	inclusion to the end of mechanical ventilation or Day 28 if patient is still mechanically ventilated or ICU discharge
Secondary	Length of mechanical ventilation	The secondary endpoint is the length of mechanical ventilation, (unit: day number)	inclusion to the end of mechanical ventilation or Day 28 if patient is still mechanically ventilated or ICU discharge
Secondary	Number of day with PaO2 equal or above to 80 mmHg	The secondary endpoint is the number of the day where patient is mechanically ventilated and has a PaO2 equal or above to 100 mmHg and 80 mmHg . PaO2 is measured by blood gases obtained in usual practice . this outcome will be followed by the inclusion until the end of mechanical ventilation or D28.	inclusion to the end of mechanical ventilation or Day 28 if patient is still mechanically ventilated or ICU discharge
Secondary	Number of hypoxemia episode	The secondary endpoint is the number (in day) of hypoxemia (defined by PaO2<60 mmHg - measured by blood gases obtained in usual practice). PaO2 will be followed by the inclusion until the end of oxygenotherapy or D28.	inclusion to the end of mechanical ventilation or Day 28 if patient is still mechanically ventilated or ICU discharge
Secondary	Number of day without mechanical ventilation at D28	The secondary endpoint is the number of day without mechanical ventilation at D28. It will be followed by the inclusion until D28.	inclusion to D28
Secondary	Number of atelectasis episodes requiring specific medical care (that means fibro-aspiration or posture of patient)	The secondary endpoint is the number of atelectasis episodes requiring specific medical care. It will be followed by the inclusion until the end of mechanical ventilation or D28.	inclusion to the end of mechanical ventilation or Day 28 if patient is still mechanically ventilated or ICU discharge
Secondary	Average daily PaO2	The primary endpoint is the average daily PaO 2 in each group (measured by blood gases obtained in usual practice ) . PaO2 will be followed by the inclusion until the end of oxygenotherapy or D28.	inclusion to the end of mechanical ventilation or Day 28 if patient is still mechanically ventilated or ICU discharge
Secondary	Number of moderate hypoxemia hours	this outcomes follows the formula: Moderate hypoxia (in hours) = a + b. With a = the sum of the durations (in hours) between two GDS having a PaO2> 100mmHg and b = the sum of the half times (in hours) between a GDS having a PaO2> 100mmHg and a GDS having a PaO2 = 100mmHg	inclusion to the end of mechanical ventilation or Day 28 if patient is still mechanically ventilated or ICU discharge
Secondary	Maximum ORI values during pre-oxygenation before a endotracheal aspiration	The secondary endpoint is the maximum ORI values during pre-oxygenation before a endotracheal aspiration	At each pre-oxugenation before a endotracheal aspiration occurs from inclusion to the end of mechanical ventilation or Day 28 if patient is still mechanically ventilated or ICU discharge
Secondary	Minimum SpO2 within 15 minutes following a endotracheal aspiration	The primary endpoint is the minimum SpO2 within 15 minutes following a endotracheal aspiration, with or without recruitment maneuver.	At each endotracheal aspiration occurs from inclusion to the end of mechanical ventilation or Day 28 if patient is still mechanically ventilated or ICU discharge