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Comparison of Oxygen Controllers in Preterm InfanTs (COCkPIT)

Primary Purpose

Premature Infant, Respiratory Insufficiency, Hypoxia

Status
Terminated
Phase
Not Applicable
Locations
Netherlands
Study Type
Interventional
Intervention
Automated oxygen control by the CLiO2 algorithm
Automated oxygen control by the Oxygenie algorithm
Sponsored by
Leiden University Medical Center
About
Eligibility
Locations
Arms
Outcomes
Full info

About this trial

This is an interventional treatment trial for Premature Infant

Eligibility Criteria

undefined - 8 Weeks (Child)All SexesDoes not accept healthy volunteers

Inclusion Criteria:

  • Preterm infants with a gestational age (GA) at birth of 24 - 29+6/7 weeks
  • Receiving invasive mechanical ventilation or non-invasive respiratory support (NCPAP or NIPPV)
  • Receiving supplemental oxygen (defined as FiO2 ≥ 0.25) at the time of enrollment and for at least 18 hours during the previous 24 hours; Or a coefficient of variation in supplemental oxygen of ≥ 0.1 in the previous 24 hours.
  • Expected to complete the 49-hour or 50-hour study period in the current form of respiratory support, i.e. invasive mechanical ventilation or non-invasive respiratory support
  • Written informed parental consent must be present.

Exclusion Criteria:

  • Major congenital anomalies
  • Arterial hypotension requiring vasopressor therapy within 48 hours prior to enrollment.
  • If the attending physician considers the infant not stable enough for a switch to another ventilator.

Sites / Locations

  • Leiden University Medical Center

Arms of the Study

Arm 1

Arm 2

Arm Type

Experimental

Experimental

Arm Label

CLiO2

Oxygenie

Arm Description

Automated oxygen control by the CLiO2 algorithm

Automated oxygen control by the Oxygenie algorithm

Outcomes

Primary Outcome Measures

Proportion of time with SpO2 spent within set target range
Total time SpO2 is within the set target range (91-95%) including time spent above target range when in room air (set FiO2 < 0.22)

Secondary Outcome Measures

Proportion of time with SpO2 spent above target range (SpO2 > 95%)
Proportion of time with SpO2 spent below target range (SpO2 < 91%)
Coefficient of SpO2 variation
Time in hypoxemic SpO2 ranges
Time in SpO2 range 85-90%, 80-84% and <80%
Time in hyperoxemic SpO2 ranges
Time in SpO2 range 96-98% and >98%
Frequency of episodes of hypoxemia
Episodes in hypoxemia with SpO2 < 85% for ≥ 30 seconds, for ≥ 60 seconds and hypoxemia < 80% for ≥ 30 seconds and ≥ 60 seconds
Frequency of episodes of hyperoxemia
Episodes in hyperoxemia with SpO2 ≥ 97% for ≥ 30 seconds, for ≥ 60 seconds and hyperoxemia ≥ 99% for ≥ 30 seconds and ≥ 60 seconds
Frequency of episodes of bradycardia
Episodes where the heart rate < 100 beats per minute for ≥ 10 seconds
Frequency of FiO2 adjustments during automated control
FiO2 adjustments as made by the controller and by bedside staff as manual over-rides by the bedside staff as well
Average oxygen exposure
Coefficient of variation of FiO2
Effects on nursing workload in relation to FiO2 adjustment
Number of manual FiO2 adjustments and as the effect on workload measured by a translated questionnaire adapted from the NASA TLX questionnaire, using a visual rating scale
Confidence of the bedside staff in the automated control system
Measured at the end of each nursing shift by a subset of questions out of the System Trust Scale (Jian et al. 2000) questionnaire. All questions are answered on a 1 (not at all) to 7 (extremely) scale.

Full Information

First Posted
March 12, 2019
Last Updated
June 5, 2020
Sponsor
Leiden University Medical Center
Collaborators
University of Tasmania
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1. Study Identification

Unique Protocol Identification Number
NCT03877198
Brief Title
Comparison of Oxygen Controllers in Preterm InfanTs
Acronym
COCkPIT
Official Title
A Randomized Cross-over Trial in the Effect of Automated Oxygen Control Devices on the Distribution of Oxygen Saturation in Preterm Infants
Study Type
Interventional

2. Study Status

Record Verification Date
June 2020
Overall Recruitment Status
Terminated
Why Stopped
As a result of a slower inclusion rate than expected, competence of medical staff to work with the AVEA ventilator could no longer be guaranteed.
Study Start Date
February 19, 2019 (Actual)
Primary Completion Date
February 13, 2020 (Actual)
Study Completion Date
February 13, 2020 (Actual)

3. Sponsor/Collaborators

Responsible Party, by Official Title
Principal Investigator
Name of the Sponsor
Leiden University Medical Center
Collaborators
University of Tasmania

4. Oversight

Studies a U.S. FDA-regulated Drug Product
No
Studies a U.S. FDA-regulated Device Product
No
Data Monitoring Committee
No

5. Study Description

Brief Summary
Premature infants often receive respiratory support and supplemental oxygen for a prolonged period of time during their admission in the NICU. While maintaining the oxygen saturation within a narrow target range is important to prevent morbidity, manual oxygen titration can be very challenging. Automatic titration by a controller has been proven to be more effective. However, to date the performance of different controllers has not been compared. The proposed randomized crossover trial Comparing Oxygen Controllers in Preterm InfanTs (COCkPIT) is designed to compare the effect on time spent within target range. The results of this trial will help determining which algorithm is most successful in controlling oxygen, improve future developments in automated oxygen control and ultimately reduce the morbidity associated with hypoxemia and hyperoxemia.
Detailed Description
Both hypoxemia as hyperoxemia can potentially be harmful to premature infants. Oxygen titration during respiratory support is vital to prevent these conditions but is very challenging. In the investigator's neonatal intensive care unit preterm infants routinely receive automatic oxygen titration performed by a controller. The currently used controllers are both proven to be more effective than manual titration, however which of the two controllers is most effective in keeping oxygen saturation within target range remains unclear. This randomized crossover trial tests tests both controllers within every study patient to determine which controller is most effective and thereby would hopefully reduce morbidity associated with hypoxemia and hyperoxemia the most. The primary outcome measure is the proportion of time spent within target range, each controller will be tested for 24 hours within the same study subject. This is excluding a 1-hour wash-out period after a change in ventilator. Eligible infants are randomized to start with either the Oxygenie algorithm or CLiO2 algorithm and will switch to the other study arm after 24 hours of measurement.

6. Conditions and Keywords

Primary Disease or Condition Being Studied in the Trial, or the Focus of the Study
Premature Infant, Respiratory Insufficiency, Hypoxia, Hyperoxia

7. Study Design

Primary Purpose
Treatment
Study Phase
Not Applicable
Interventional Study Model
Crossover Assignment
Masking
Outcomes Assessor
Masking Description
The outcome assessor/investigator will be blinded for treatment allocation
Allocation
Randomized
Enrollment
15 (Actual)

8. Arms, Groups, and Interventions

Arm Title
CLiO2
Arm Type
Experimental
Arm Description
Automated oxygen control by the CLiO2 algorithm
Arm Title
Oxygenie
Arm Type
Experimental
Arm Description
Automated oxygen control by the Oxygenie algorithm
Intervention Type
Device
Intervention Name(s)
Automated oxygen control by the CLiO2 algorithm
Other Intervention Name(s)
AVEA CLiO2
Intervention Description
Automated oxygen control for 24 hours by the CLiO2 algorithm, preceded by a 1 hour wash-out period
Intervention Type
Device
Intervention Name(s)
Automated oxygen control by the Oxygenie algorithm
Other Intervention Name(s)
SLE Oxygenie
Intervention Description
Automated oxygen control for 24 hours by the Oxygenie algorithm, in case of switch in ventilator preceded by a 1-hour wash-out period.
Primary Outcome Measure Information:
Title
Proportion of time with SpO2 spent within set target range
Description
Total time SpO2 is within the set target range (91-95%) including time spent above target range when in room air (set FiO2 < 0.22)
Time Frame
Continuously from randomization until study completion. (maximum of 50 hours) Measurements during wash-out periods (up to 1 hour after ventilator switch) will be excluded.
Secondary Outcome Measure Information:
Title
Proportion of time with SpO2 spent above target range (SpO2 > 95%)
Time Frame
Continuously from randomization until study completion. (maximum of 50 hours) Measurements during wash-out periods (up to 1 hour after ventilator switch) will be excluded.
Title
Proportion of time with SpO2 spent below target range (SpO2 < 91%)
Time Frame
Continuously from randomization until study completion. (maximum of 50 hours) Measurements during wash-out periods (up to 1 hour after ventilator switch) will be excluded.
Title
Coefficient of SpO2 variation
Time Frame
Continuously from randomization until study completion. (maximum of 50 hours) Measurements during wash-out periods (up to 1 hour after ventilator switch) will be excluded.
Title
Time in hypoxemic SpO2 ranges
Description
Time in SpO2 range 85-90%, 80-84% and <80%
Time Frame
Continuously from randomization until study completion. (maximum of 50 hours) Measurements during wash-out periods (up to 1 hour after ventilator switch) will be excluded.
Title
Time in hyperoxemic SpO2 ranges
Description
Time in SpO2 range 96-98% and >98%
Time Frame
Continuously from randomization until study completion. (maximum of 50 hours) Measurements during wash-out periods (up to 1 hour after ventilator switch) will be excluded.
Title
Frequency of episodes of hypoxemia
Description
Episodes in hypoxemia with SpO2 < 85% for ≥ 30 seconds, for ≥ 60 seconds and hypoxemia < 80% for ≥ 30 seconds and ≥ 60 seconds
Time Frame
Continuously from randomization until study completion. (maximum of 50 hours) Measurements during wash-out periods (up to 1 hour after ventilator switch) will be excluded.
Title
Frequency of episodes of hyperoxemia
Description
Episodes in hyperoxemia with SpO2 ≥ 97% for ≥ 30 seconds, for ≥ 60 seconds and hyperoxemia ≥ 99% for ≥ 30 seconds and ≥ 60 seconds
Time Frame
Continuously from randomization until study completion. (maximum of 50 hours) Measurements during wash-out periods (up to 1 hour after ventilator switch) will be excluded.
Title
Frequency of episodes of bradycardia
Description
Episodes where the heart rate < 100 beats per minute for ≥ 10 seconds
Time Frame
Continuously from randomization until study completion. (maximum of 50 hours) Measurements during wash-out periods (up to 1 hour after ventilator switch) will be excluded.
Title
Frequency of FiO2 adjustments during automated control
Description
FiO2 adjustments as made by the controller and by bedside staff as manual over-rides by the bedside staff as well
Time Frame
Continuously from randomization until study completion. (maximum of 50 hours) Measurements during wash-out periods (up to 1 hour after ventilator switch) will be excluded.
Title
Average oxygen exposure
Time Frame
Continuously from randomization until study completion. (maximum of 50 hours) Measurements during wash-out periods (up to 1 hour after ventilator switch) will be excluded.
Title
Coefficient of variation of FiO2
Time Frame
Continuously from randomization until study completion. (maximum of 50 hours) Measurements during wash-out periods (up to 1 hour after ventilator switch) will be excluded.
Title
Effects on nursing workload in relation to FiO2 adjustment
Description
Number of manual FiO2 adjustments and as the effect on workload measured by a translated questionnaire adapted from the NASA TLX questionnaire, using a visual rating scale
Time Frame
From randomization until study completion. (maximum of 50 hours) Manual adjustments during wash-out periods will be excluded.
Title
Confidence of the bedside staff in the automated control system
Description
Measured at the end of each nursing shift by a subset of questions out of the System Trust Scale (Jian et al. 2000) questionnaire. All questions are answered on a 1 (not at all) to 7 (extremely) scale.
Time Frame
From randomization until study completion. (maximum of 50 hours)

10. Eligibility

Sex
All
Maximum Age & Unit of Time
8 Weeks
Accepts Healthy Volunteers
No
Eligibility Criteria
Inclusion Criteria: Preterm infants with a gestational age (GA) at birth of 24 - 29+6/7 weeks Receiving invasive mechanical ventilation or non-invasive respiratory support (NCPAP or NIPPV) Receiving supplemental oxygen (defined as FiO2 ≥ 0.25) at the time of enrollment and for at least 18 hours during the previous 24 hours; Or a coefficient of variation in supplemental oxygen of ≥ 0.1 in the previous 24 hours. Expected to complete the 49-hour or 50-hour study period in the current form of respiratory support, i.e. invasive mechanical ventilation or non-invasive respiratory support Written informed parental consent must be present. Exclusion Criteria: Major congenital anomalies Arterial hypotension requiring vasopressor therapy within 48 hours prior to enrollment. If the attending physician considers the infant not stable enough for a switch to another ventilator.
Overall Study Officials:
First Name & Middle Initial & Last Name & Degree
Arjan B te Pas, Prof
Organizational Affiliation
Leiden University Medical Center
Official's Role
Principal Investigator
First Name & Middle Initial & Last Name & Degree
Peter A Dargaville, Prof
Organizational Affiliation
University of Tasmania
Official's Role
Principal Investigator
Facility Information:
Facility Name
Leiden University Medical Center
City
Leiden
State/Province
Zuid-Holland
ZIP/Postal Code
2333
Country
Netherlands

12. IPD Sharing Statement

Plan to Share IPD
Undecided
Citations:
PubMed Identifier
34112721
Citation
Salverda HH, Cramer SJE, Witlox RSGM, Gale TJ, Dargaville PA, Pauws SC, Te Pas AB. Comparison of two devices for automated oxygen control in preterm infants: a randomised crossover trial. Arch Dis Child Fetal Neonatal Ed. 2022 Jan;107(1):20-25. doi: 10.1136/archdischild-2020-321387. Epub 2021 Jun 10.
Results Reference
derived

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Comparison of Oxygen Controllers in Preterm InfanTs

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