FAST2: Fast Assessment of Surfactant Deficiency in Preterm Infants to Speed up Treatment
Study Details
Study Description
Brief Summary
Recently the investigators have developed a point of care test (LS-test) to measure surfactant as lecithin in gastric aspirates from preterm infants.
This test can be done immediately at delivery and potentially be used to guide surfactant treatment.
To obtain evidence-based knowledge on harms and benefit of surfactant therapy guided by the L/S test, a randomized clinical trial with relevant clinical short-and long-term outcomes needs to be performed, which is why the FAST 2 Trial has been designed.
Condition or Disease | Intervention/Treatment | Phase |
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N/A |
Detailed Description
Treatment of respiratory distress syndrome (RDS) has evolved greatly over the past three decades. Major advances in treatment include antenatal steroids, early nasal continuous positive airway pressure (nCPAP) combined with early rescue surfactant replacement strategies such as Intubation Surfactant Extubation (INSURE) and Less Invasive Surfactant Administration (LISA), together with use of lung protective ventilation and overall reduced use of mechanical ventilation. However, RDS and bronchopulmonary dysplasia (BPD) are still major causes of mortality and morbidity in premature infants. To improve the outcome, very early treatment with surfactant is necessary. However, only about half of infants with a gestational age (GA) below 30 weeks need surfactant treatment and prophylactic surfactant treatment increases the combined mortality and incidence of BPD contrary to selective rescue surfactant treatment. Therefore, there is a need for a rapid test to guide early targeted surfactant treatment.
The investigators have recently developed a new test of lung maturity based on measuring the lecithin sphingomyelin ratio (L/S) in fresh gastric aspirates (GAS) from newborn preterm infants using mid-red Fourier Transform Infrared spectroscopy (FTIR). The sphingomyelin concentration in amniotic fluid and accordingly in GAS is relatively constant during the pregnancy, whereas the lecithin (or dipalmitoylphosphatidylcholine (DPPC), the lung surfactant phospholipid with the highest surface activity) concentration increases with the lung maturation.
It has been demonstrated in clinical observational trials that this laboratory based L/S-test predicts development of RDS when measured immediately at delivery (FAST 1 Trial).
The L/S-test has now been developed into an easy-to-use Point of Care (POC) test for bedside use that expresses the L/S ratio in approximately 10 minutes. It is believed this new POC test can be used to guide surfactant therapy, enabling very early rescue treatment, potentially even before symptoms occur.
To obtain evidence-based knowledge on harms and benefit of surfactant therapy guided by the L/S test, a randomized clinical trial with relevant clinical short-and long-term outcomes needs to be performed, which is why the FAST 2 Trial has been designed.
During design and development of the FAST 2 Trial protocol extensive engineering work has been conducted towards building a fully automated L/S POC Device (AIMI 1.0/2.0) from the prototypes in the first L/S studies (including FAST 1 Trial).
During this process the accuracy of the L/S algorithm has been improved through machine learning and use of artificial intelligence. Consequently, the previously defined cut-off ratio from the FAST 1 Trial needs to be re-validated using the L/S POC Device in a new population of preterm infants.
The FAST 2 Trial therefore consists of two individual studies starting with the FAST 2 Validation Study which will followed by the FAST 2 Randomized Clinical Trial (FAST 2 RCT) once completed. The FAST 2 Validation study has been registered separately on clinicaltrials.gov (NCT05615428).
This registration concerns the FAST 2 RCT
Participants:
Preterm newborn infants with gestational age at birth of ≤ 29+6 weeks who have not received prophylactic surfactant.
Intervention:
Surfactant treatment guided by fast determination of the L/S-ratio in a fresh gastric aspirate (GAS) obtained at birth, measured by Fourier Transform Mid-infrared Spectroscopy as a POC test.
Comparison:
Standard rescue surfactant treatment based on clinical criteria defined by the European Consensus Guidelines on the management of Respiratory Distress Syndrome
Outcome:
Infants surviving without moderate to severe BPD assessed at 36 weeks post menstrual age as per a modified NIH definition
The primary outcome is a composite of survival without moderate to severe BPD, defined as per a modified "NIH definition"
The primary objective is to compare the rate of survival without moderate to severe BPD between 2 groups:
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L/S guided treatment of surfactant deficiency with exogenous surfactant (intervention group) vs.
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Standard treatment of surfactant deficiency (comparison).
Study Design
Arms and Interventions
Arm | Intervention/Treatment |
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Experimental: Intervention arm LS guided treatment all participating infants will have a gastric aspirate (GAS) sampled at birth within 45 minutes of life. The GAS will be analyzed immediately at the bedside by a LS-test POC device. For infants allocated to the interventional group the LS-result will be displayed as "treat with surfactant" or " do not treat with surfactant" depending on wether the LS-ratio is under or above the cut-off ratio for treatment. Those with LS-ratio above the cut-off ratio will be treated with surfactant as per routine in accordance with the European RDS guidelines based on oxygen requirement (FiO2 > 0.30) - ie same as in control group. |
Diagnostic Test: LS test
If the LS test indicated surfactant deficiency based on the cut off ratio early surfactant treatment will be done for patients in the intervention group If the LS test indicated no surfactant deficiency routine surfactant treatment will be done as per European RDS guidelines based on oxygen requirement (FiO2 > 0.30)
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No Intervention: Control arm - routine surfactant treatment all participating infants will have a gastric aspirate (GAS) sampled at birth within 45 minutes of life. The GAS will be analyzed immediately at the bedside by a LS-test POC device, but result will remain blinded. Infants allocated to the control group will be treated with surfactant as per routine in accordance with the European RDS guidelines based on oxygen requirement (FiO2 > 0.30). The LS-ratio for those infants will remain blinded |
Outcome Measures
Primary Outcome Measures
- Survival without moderate to severe bronchopulmonary dysplasia (BPD) [at 36 weeks PMA or discharge withever comes first]
BPD is defined as per a modified "NIH definition" in which any degree of respiratory support for at least 28 days is considered equal to the need for oxygen: Treatment with oxygen > 21% or any degree of respiratory support for a least 28 days plus Need for treatment with oxygen > 21% or any degree of respiratory support at PMA 36 weeks or at discharge, whichever comes first. Definitions: Moderate BPD is defined as treatment with oxygen > 21% or any degree of respiratory support for a least 28 days plus need of supplemental oxygen from >21% to < 30% (as low flow O2) at 36+0 weeks PMA Severe BPD is defined as treatment with oxygen > 21% or any degree of respiratory support for a least 28 days plus need of > 30% oxygen and/or continuous need for any level of respiratory support providing positive airway pressure (nHFT, nCPAP, NIV or mechanical ventilation)
Secondary Outcome Measures
- mortality [From date of birth until the date of death if this happens before discharge]
assessed at discharged
- Bronchopulmonary dysplasia [at 36 weeks PMA or discharge withever comes first]
BPD is defined as per a modified "NIH definition" in which any degree of respiratory support for at least 28 days is considered equal to the need for oxygen: Treatment with oxygen > 21% or any degree of respiratory support for a least 28 days plus Need for treatment with oxygen > 21% or any degree of respiratory support at PMA 36 weeks or at discharge, whichever comes first. Definitions: Moderate BPD is defined as treatment with oxygen > 21% or any degree of respiratory support for a least 28 days plus need of supplemental oxygen from >21% to < 30% (as low flow O2) at 36+0 weeks PMA Severe BPD is defined as treatment with oxygen > 21% or any degree of respiratory support for a least 28 days plus need of > 30% oxygen and/or continuous need for any level of respiratory support providing positive airway pressure (nHFT, nCPAP, NIV or mechanical ventilation)
- LS-ratio [72 hours]
POC measurement using FTIR Spectroscopy
- Nectrotizing enterocolitis [From date of birth to 44 weeks of gestational age (usually around 18 weeks)]
According to Bell classification/AXR
- Spontaneous intestinal perforation [From date of birth to 44 weeks of gestational age (usually around 18 weeks)]
As diagnosed on AXR
- Intraventricular hemorhage [From date of birth to 44 weeks of gestational age (usually around 18 weeks)]
According to Papile classification
- Airleak [From date of birth to 44 weeks of gestational age (usually around 18 weeks)]
Assessed on CXR or lung ultrasound
- surfactant treatment, [72 hours]
from medical record
- surfactant treatmentdose, [72 hours]
from medical record
- number of surfactant treatments, [72 hours]
from medical record
- timing surfactant treatments, [72 hours]
from medical record
- gastric aspirate obtained [72 hours]
from medical record
- gastric aspirate analyzed [72 hours]
from medical record
Eligibility Criteria
Criteria
Inclusion Criteria:
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GA ≤ 29+6, inborn at a participating centre
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Age less than 45 minutes as GAS must be sampled within 45 minutes from delivery.
Exclusion Criteria:
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Treated with surfactant before randomisation and obtaining gastric aspirates
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Diagnosis of major malformations (major congenital heart defects, congenital diaphragmatic hernia, gastroschisis/omphalocele, pulmonary abnormalities including pulmonary hypoplasia and trachea-oesophageal fistula
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Antenatal suspicion of significant oligohydramnios and lung hypoplasia
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Any intrauterine intervention except if done for genetic testing
Contacts and Locations
Locations
Site | City | State | Country | Postal Code | |
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1 | Aalborg University Hospital | Aalborg | Denmark | 9000 | |
2 | Aarhus Universtity Hospital | Aarhus | Denmark | 8200 | |
3 | Department of Neonatology, Rigshospitalet | Copenhagen | Denmark | 2100 | |
4 | Odense University Hospital | Odense | Denmark |
Sponsors and Collaborators
- Rigshospitalet, Denmark
- Odense University Hospital
- Aalborg University Hospital
- Aarhus University Hospital
- Holbaek Sygehus
Investigators
- Principal Investigator: Christian Heiring, Rigshospitalet, Denmark
Study Documents (Full-Text)
None provided.More Information
Publications
None provided.- H-22007105 RCT Study