Hypoxia Clinical Trial
— SCO2TOfficial title:
Randomised Cross-over Study of Servo-controlled Oxygen Targeting for Premature Infants
Verified date | January 2021 |
Source | University of Edinburgh |
Contact | n/a |
Is FDA regulated | No |
Health authority | |
Study type | Interventional |
Most premature babies require oxygen therapy. There is uncertainty about what oxygen levels are the best. The oxygen levels in the blood are measured using a monitor called a saturation monitor and the oxygen the baby breathes is adjusted to keep the level in a target range. Although there is evidence that lower oxygen levels maybe harmful, it is not known how high they need to be for maximum benefit. Very high levels are also harmful. Saturation monitors are not very good for checking for high oxygen levels. For this a different kind of monitor, called a transcutaneous monitor, is better. Keeping oxygen levels stable is usually done by nurses adjusting the oxygen levels by hand (manual control). There is also equipment available that can do this automatically (servo control). It is not known which is best. Studies of automated control have shown that infants spend more time within their intended target oxygen saturation range. These have not included measurements of transcutaneous oxygen. The investigators aim to show the transcutaneous oxygen levels as well as the oxygen saturation levels when babies have their oxygen adjusted manually or automatically.
Status | Completed |
Enrollment | 22 |
Est. completion date | January 6, 2021 |
Est. primary completion date | January 6, 2021 |
Accepts healthy volunteers | No |
Gender | All |
Age group | N/A to 1 Month |
Eligibility | Inclusion Criteria: 1. Infants born at less than 29 weeks gestation 2. Infants greater than 48 hours of age 3. Infants who are receiving supplementary oxygen 4. Person with parental responsibility able to give consent Exclusion Criteria: 1. Congenital anomalies that would prevent targeting SpO2 to 90-95% (e.g. cardiac defects) 2. Clinical condition of an infant would impair accurateTcPO2 measurement (e.g. impaired perfusion or requirement of inotropic or vasopressor support) |
Country | Name | City | State |
---|---|---|---|
United Kingdom | The Simpson Centre for Reproductive Health, Royal Infirmary Edinburgh | Edinburgh |
Lead Sponsor | Collaborator |
---|---|
University of Edinburgh | NHS Lothian |
United Kingdom,
Type | Measure | Description | Time frame | Safety issue |
---|---|---|---|---|
Primary | Incidence of hyperoxia and hypoxia on transcutaneous monitoring | To discover the percentage time spent within a TcPO2 range of 50mmHg (6.7kPa) - 80mmHg (10.7kPa) when infants are targeted to an SpO2 range of 90-95% using automated (servo) versus manual control. | 12 hours | |
Secondary | Transcutaneous oxygen variability | To discover the variability in TcPO2 (measured by standard deviation) when infants are targeted to an SpO2 range of 90-95% using automated (servo) versus manual control. | 12 hours | |
Secondary | Incidence of hyperoxia and hypoxia on saturation monitoring | To discover the percentage time spent within target SpO2 range of 90-95% when infants are targeted using automated (servo) versus manual control. | 12 hours | |
Secondary | Saturation variability | To discover the variability in SpO2 (measured by standard deviation) when infants are targeted to an SpO2 range of 90-95% using automated (servo) versus manual control. | 12 hours | |
Secondary | Fraction of inspired oxygen variability | To discover the variability in FiO2 (measured by standard deviation) when infants are targeted to an SpO2 range of 90-95% using automated (servo) versus manual control. | 12 hours | |
Secondary | Pooled frequency histogram of TcPO2 | To generate a pooled frequency histogram of percentage time at a TcPO2 of below 30mmHg, 30-39.9mmHg, 40-49.9mmHg, 50-59.9mmHg, 60-69.9mmHg, 70-79.9mmHg, and 80mmHg and above for infants targeted to an SpO2 range of 90-95% using automated (servo) versus manual control. | 12 hours | |
Secondary | Pooled frequency histogram of SpO2 | To generate a pooled frequency histogram of percentage time at each SpO2 point between 80 - 100% for infants targeted to an SpO2 range of 90-95% using automated (servo) versus manual control. | 12 hours | |
Secondary | Pooled frequency histogram of FiO2 | To generate a pooled frequency histogram of the cumulative frequency at a FiO2 of 0.21-0.3, 0.31-0.4, 0.41-0.5, 0.51-0.6, 0.61-0.7, 0.81-0.9 and 0.91-1.0 for infants targeted to an SpO2 range of 90-95% using automated (servo) versus manual control. | 12 hours | |
Secondary | Desaturations | To discover the frequency, duration and depth of desaturations and the area (change in PO2 versus time) above and below the set PO2 threshold for infants targeted to an SpO2 range of 90-95% using automated (servo) versus manual control. | 12 hours |
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