Airway Flow of RAM Cannula With BCPAP in Infants
- Conditions
- Respiratory Distress Syndrome, NewbornInfant, Premature, DiseasesInfant, Newborn, Diseases
- Registration Number
- NCT06697912
- Lead Sponsor
- Karolinska Institutet
- Brief Summary
The RAM Cannula interface is used as routine interface for newborn infants receiving CPAP treatment for respiratory distress. Compared to the standard systems that have been used for more than 50 years, the interface has high resistance and has not been extensively studied. The delivered quality of the CPAP support is likely to be negatively affected by the interface resistance.
We hypothesise that exhalations through the device is uncommon and that the interface resistance restricts flow from the patient. If expiratory flows are uncommon the RAM interface provide support clinically comparable to other systems based on unidirectional flow such as humidified high-flow cannula.
This is a cross-sectional, observational study (no intervention) in newborn infants that are clinically stable and on respiratory support with the RAM interface connected to a bCPAP circuit. This is the most common support in the Phu San neonatal unit. The time needed for data collection is short and collection is expected to take approximately five minutes (less than 15 minutes) in a quiet infant. The collection can be planned to minimize disturbances for the infant, parents and staff. For example, the busiest times of the day can be avoided to not intervene with daily care, ward rounds or examinations of the infant.
Data on flow and pressure will be collected within the respiratory support circuit at the connection to the RAM interface. The measurements are passive, and no tests or manipulation of the infant is planned. There will be brief interruptions (\<1 min) in respiratory support when the meters are connected. Similar interruptions are very common and occurs several times per day during normal care.
Data will be collected in case report forms (CRF) with REDCap electronic data capture tool. All personal identifiers will be removed before data export from REDCap and further analysis only using enrolment numbers.
Background variables describing the pregnancy, delivery and the infant will be collected. We also will record details of the RAM-cannula interface, such as size, protective dressing, gastric feeding tube, obvious leak at nares and mouth.
During the measurement the infant will be monitored for vital signs and any problems will be addressed and recorded. This includes oxygen need, CPAP support and breathing problems. The flow and pressure data for one minute of quiet breathing will be stored locally with the enrolment number as identifier. The analysis after collection of flow and pressure will include average flow in the CPAP circuit, the flow to the patient, average absolute leak and delivered pressure. If a variation with breathing can be seen this will be described. These output variables directly relate to the research questions.
1. What flows and pressure can be observed in the breathing circuit? \[Measured average flows, pressure and variability between patients\]
2. Do infants exhale through the RAM interface? \[Measured expiratory flows at the interface\]
3. What is the level of leak for the interface? \[Measured absolute leak\]
The RAM cannula interface has been widely introduced but is not CE-marked for CPAP support. It has an advantage of being more comfortable and light weight with less nasal injury in most trials. The high resistance of the RAM interface has been discussed as problematic by several authors, but the clinical importance is not known. Comparing RAM interface to other CPAP interfaces in clinical trials is difficult and, if RAM has a treatment effect similar to HHFNC, very large trials of high quality would be needed.
The described study will generate new knowledge on the RAM interface by describing patient flow through the interface and illustrate the importance of resistance and leak. The study is not strictly a physiological study but investigate flow in an airway interface. The most likely outcome is that exhalation is uncommon, and this would support that the RAM interface has more similarities with HHFNC than conventional CPAP.
- Detailed Description
Not available
Recruitment & Eligibility
- Status
- RECRUITING
- Sex
- All
- Target Recruitment
- 100
- Admitted to Phu San Hanoi Hospital Neonatology Unit
- Support with bubble CPAP and RAM interface
- Quiet and stable spontaneous breathing
- Investigation team available
- Problems with routine CPAP care
- Major congenital malformation
- Known syndrome or neuromuscular disease
- Circulatory instability with inotropes
- Oxygen need >50% or CPAP >10 cm H2O
- Surfactant given the last 6 hours or expected to be needed the next 6 hours
- Expected to need NIPPV or intubation within 6 hours
- Recently extubated (<24 h)
- Recent large surgical procedure (<5 days)
- Nasal wound or irritation that hurts or is at risk of worsening during study
Study & Design
- Study Type
- OBSERVATIONAL
- Study Design
- Not specified
- Primary Outcome Measures
Name Time Method Airway flow in RAM interface 60 seconds Average airway flow (L/min) in a quiet breathing infant
- Secondary Outcome Measures
Name Time Method Pressure at Y-piece connector of RAM interface 60 seconds Average pressure (cm H2O) over 60 seconds in a quiet breathing infant
Fresh gas flow to Y-piece connector for RAM interface 60 seconds Average flow (L/min) over 60 seconds in a quiet breathing infant
Exhalation through Y-piece connector for RAM interface 60 seconds Number of breaths (ratio) with an expiratory flow of (duration \>0.1 ms) over 60 seconds in a quiet breathing infant
Trial Locations
- Locations (1)
Phu San Hanoi Hospital
🇻🇳Hanoi, Vietnam