Airway & Intubation Trainers: Airway Management Trainers & Intubation Manikins
Our Airway & Intubation Trainers line is designed for anesthesia schools, EMS training programs, paramedic schools, ER and critical care training, and hospital simulation centers in need of repetitive airway practice on adult and pediatric anatomy without risk to a live patient. You’ll find airway management trainers, adult intubation manikins, pediatric intubation trainers, difficult airway trainers, and cricothyrotomy / FONA (front of neck access) trainers, built to let learners use real laryngoscopes, supraglottic devices, ET tubes, bag-valve-mask ventilation and surgical airway techniques.
Adult Airway & Intubation Trainers
Adult intubation heads like TruCorp AirSim are anatomically correct and feature oral, nasal, and supraglottic airway placement, including LMA and Combitube-style airways. They're created for multiple endotracheal intubation, NG tube placement, and bag-mask ventilation, with realistic airway resistance.
Pediatric Intubation Trainers
Pediatric airway management educators and infant/child intubation manikins mimic age-specific airway landmarks (tongue, epiglottis, vocal cords, trachea, esophagus) to allow students to see and feel pediatric versus adult airway differences. The models allow oral and nasal intubation, ventilation, suction, and verification of tube placement.
Difficult Airway & Cric Trainers
Difficult airway and cricothyrotomy / FONA simulators allow advanced practitioners to practice anticipated difficult intubation, surgical airway, and front of neck access under stress. The majority of models follow Difficult Airway Society guidance and allow needle or surgical cric, junctional airway access, and escalation steps for "can't intubate, can't oxygenate" scenarios.
How to choose:
- Patient type: adult versus pediatric versus infant.
- Skill level: basic airway management versus difficult airway / cricothyrotomy.
- Feedback & realism: anatomically accurate CT-based airways, palpable landmarks, realistic tissue texture, and sensor-activated placement and ventilation feedback in select pediatric/advanced models.
