Clinical Trials Directory

Trials / Completed

CompletedNCT03163108

Closed-loop Automatic Oxygen Control (CLAC-4) in Preterm Infants

Closed-loop Automatic Oxygen Control (CLAC-4) in Preterm Infants: a Randomized Controlled Trial of a Revised Algorithm

Status
Completed
Phase
N/A
Study type
Interventional
Enrollment
19 (actual)
Sponsor
University Hospital Tuebingen · Academic / Other
Sex
All
Age
Healthy volunteers
Not accepted

Summary

Two-center, randomised controlled, cross-over clinical trial in preterm infants born at gestational age below 34+1/7 weeks receiving supplemental oxygen and respiratory support (Continous positive airway pressure (CPAP) or Non-invasive Ventilation (NIV) or Invasive Ventilation (IV)). Routine manual control (RMC) of the fraction of inspired oxygen (FiO2) will be tested against RMC supported by closed-loop automatic control (CLAC) with "slow"-algorithm and RMC supported by CLAC with "fast"-algorithm. The primary hypothesis is, that the use of the "faster" algorithm results in more time within arterial oxygen saturation (SpO2) target range compared to RMC only. The a-priori subordinate hypothesis is, that the faster algorithm is equally effective as the slower algorithm to maintain the SpO2 in the target range.

Detailed description

BACKGROUND AND OBJECTIVE In preterm infants receiving supplemental oxygen, routine manual control (RMC) of the fraction of inspired oxygen (FiO2) is often difficult and time consuming. The investigators developed a system for closed-loop automatic control (CLAC) of the FiO2 and demonstrated its safety and efficacy in a multi-center study. The objective of this study is to test a revised, "faster" algorithm with a shorter WAIT-interval of 30sec (= time between FiO2 changes) against the previously tested algorithm (WAIT of 180sec) and against RMC. The primary hypothesis is, that the application of CLAC with the "faster" algorithm in addition to RMC results in more time within arterial oxygen saturation (SpO2) target range compared to RMC only. The a-priori subordinate hypothesis is, that the faster algorithm is equally effective as the slower algorithm to maintain the SpO2 in the target range. Further hypotheses for exploratory testing are, that the "fast" algorithm will achieve a higher proportion of time with SpO2 within target range and an improved stability of cerebral oxygenation (measured as rcStO2 and rcFtO2E determined by Near-infrared spectroscopy) compared with the slow algorithm. STUDY DESIGN The Study is designed as a two-center, randomized controlled, cross-over clinical trial in preterm infants receiving mechanical ventilation or nasal continuous positive airway pressure or non-invasive ventilation and supplemental oxygen (FiO2 above 0.21). Within a twenty-four-hour period the investigators will compare 8 hours of RMC with 8-hour periods of RMC supported by CLAC "slow" algorithm or "fast" algorithm, respectively.

Conditions

Interventions

TypeNameDescription
DEVICEClosed-loop automatic oxygen control (CLAC) fast in addition to RMCClosed-loop automatic oxygen control is an automated, algorithm based adjustment of the fraction of inspired oxygen in relation to arterial saturation (WAIT-interval 30s).
DEVICEClosed-loop automatic oxygen control (CLAC) slow in addition to RMCClosed-loop automatic oxygen control is an automated, algorithm based adjustment of the fraction of inspired oxygen in relation to arterial saturation (WAIT-interval 180s).

Timeline

Start date
2017-03-15
Primary completion
2017-12-18
Completion
2018-01-12
First posted
2017-05-22
Last updated
2018-05-15

Locations

2 sites across 1 country: Germany

Source: ClinicalTrials.gov record NCT03163108. Inclusion in this directory is not an endorsement.