Embedded Files
Newborn TORY is the first newborn simulator developed to meet the challenges of neonatal care specialist training in real environments. Active movement, true ventilator support, real patient monitoring, and all-day battery life. These are just a few of the revolutionary new capabilities which allow Newborn TORY to simulate complex pathologies and respond to interventions with unparalleled realism. The next generation in simulation is here.
Every visual assessment provides a wealth of health information. That’s why Newborn Tory features lifelike limb and facial movements and programmable skin coloration that can simulate the range of visual cues seen in ill and healthy newborns.
Newborn TORY offers a new kind of simulation experience. It engages the participant's emotions, promotes suspension of disbelief, and helps create lasting memories.
True-to-Life Neonatal Resuscitation and Stabilization Scenarios.
Newborn TORY introduces a new level of anatomical and physiological fidelity that allows participants to rehearse advanced-level algorithms without compromising technique or clinical guidelines.
Uninterrupted Critical Care Transport.
Transport, handoffs, NICU evac drills, and more. Newborn Tory remains fully functional in transit thanks to its extra-long battery life and proven wireless technology.
1.Supports defibrillation and pacing using live energy.
2. Physiologically accurate real-time patient data
3. Capillary refill time testing
4. Supports Advanced Modes of Mechanical Ventilation
5. Preductal and postductal O2Sat monitoring
Intraosseous access
The breakthrough respiratory system design in Newborn Tory accurately responds to mechanical ventilation support like a real newborn while making it possible to adjust pulmonary function on the fly. Simply tap the UNI controls to decrease dynamic lung compliance and see the change from uniform chest rise, visible with as little as 15 cmH2O, to the high recoil associated with stiff lungs. These advanced features allow Super Tory to simulate the progression of respiratory disease through treatment, weaning, and rehabilitation with the highest degree of physiological accuracy.
6. ECG monitoring
7. Oscillometric blood pressure monitoring
8. Physiologically accurate waveforms and statistics
9. Native patient circuit support
10. Real EtCO2 monitoring
Page updated
Google Sites
Report abuse