Supraglottic Airway for Resuscitation Trial
Purpose
This is a hybrid type 3 effectiveness-implementation parallel cluster randomized superiority trial designed to compare two strategies to promote early supraglottic airway (SA) rescue during neonatal resuscitation, with a focus on implementation outcomes.
Conditions
- Neonatal Resuscitation
- Delivery Room Resuscitation
- Positive Pressure Ventilation
- Infant, Newborn
- Supraglottic Airway
- Laryngeal Mask Airways
- Implementation Research
Eligibility
- Eligible Ages
- Over 0 Days
- Eligible Sex
- All
- Accepts Healthy Volunteers
- No
Inclusion Criteria
- Employed full-time by the hospital, affiliated practice, or affiliated university in a role that involves newborn resuscitation - Fluent in English Administrator 1a inclusion criteria - Oversee the care of newborns on a local level (e.g. nurse manager) or a hospital level (e.g. Chief Quality and Safety Officer) - Fluent in English Clinical provider and administrator exclusion 1a criteria: No
Exclusion Criteria
Population 1b: Clinical providers who participate in qualitative interviews Clinical provider 1b inclusion criteria: - Employed full-time by the hospital, affiliated practice, or affiliated university in a role that involves newborn resuscitation - Fluent in English Clinical provider 1b exclusion criteria: No exclusion criteria Population 2: Patients who receive neonatal resuscitation at birth Inclusion Criteria: - Inborn (not transferred to the hospital after birth) - ≥34 weeks' gestation at birth, based on best obstetrical estimate - Received PPV during neonatal resuscitation (as per provider's clinical assessment) Exclusion Criteria: - Congenital diaphragmatic hernia - Airway anomalies
Study Design
- Phase
- N/A
- Study Type
- Interventional
- Allocation
- Randomized
- Intervention Model
- Parallel Assignment
- Intervention Model Description
- Hybrid type 3 effectiveness-implementation parallel cluster randomized superiority trial
- Primary Purpose
- Health Services Research
- Masking
- None (Open Label)
Arm Groups
| Arm | Description | Assigned Intervention |
|---|---|---|
|
Active Comparator Enhanced Standard of Care ("Enhanced") |
|
|
|
Active Comparator Enhanced Standard of Care Plus Facilitation ("Enhanced-Plus") |
|
Recruiting Locations
Birmingham 4049979, Alabama 4829764 35294
More Details
- Status
- Recruiting
- Sponsor
- Children's Hospital of Philadelphia
Detailed Description
Each year, approximately 3.8 million infants are born in the United States, and up to 10% require resuscitation to establish breathing at birth. Positive pressure ventilation (PPV) is the most important intervention during neonatal resuscitation and is most often delivered via facemask. However, facemask ventilation can be technically challenging, and difficulties with mask seal, airway positioning, and obstruction frequently lead to ventilation failure. Such delays prolong life-threatening asphyxia and increase the risk of morbidity and mortality. The supraglottic airway (SA) is an FDA-approved, widely available, and evidence-based alternative airway device for delivering PPV. It is safe, easy to use, and recommended in international neonatal resuscitation guidelines as an option when facemask ventilation is ineffective or endotracheal intubation is unsuccessful or not feasible. Despite strong supporting evidence, uptake of SA use in neonatal resuscitation remains low. A recent national survey of more than 5,000 Neonatal Resuscitation Program (NRP) providers found that only 12% had ever used an SA. Reported barriers to adoption included limited clinical experience, insufficient training opportunities, preference for alternative approaches, lack of availability of SA devices in the delivery room, and limited awareness of supporting evidence. The Supraglottic Airway for Resuscitation (SUGAR) Trial is designed to address the critical evidence-to-practice gap by evaluating strategies to increase the use of supraglottic airways (SA) during neonatal resuscitation. This trial will assess the comparative effectiveness of two implementation strategies while examining the contextual factors that influence their success, with the goal of identifying barriers and facilitators to sustainable SA adoption across diverse clinical settings. By testing approaches to integrate SA use into routine neonatal resuscitation, the study aims to improve both implementation and clinical outcomes, ultimately reducing the risk of prolonged asphyxia and enhancing survival and health for newborns in the delivery room.