RespiPro Manikin
A major limitation of manikin simulators is that their respiratory mechanics are fairly simple. To effectively teach mechanical ventilator management, you need ventilator-grade lungs.
At the core of RespiProā¢ Manikin is our spontaneously breathingĀ ASL 5000ā¢Ā ā the worldās most sophisticated breathing simulator. Using any ICU ventilator, you can change a patientās condition on-the-fly, or as part of a sophisticated scenario, with realistic PEEP and chest rise.
Description
RespiPro Manikin is a specialized respiratory manikin with an anatomically correct airway and chest structure paired with high-fidelity spontaneously breathing lungs.
Intended Use
RespiPro Manikin was designed to give you exactly the features you need for resuscitation and comprehensive ventilator management training.
- Enhance the perception of realism withĀ manikin chest movement and expansionĀ consistent with the simulated patientās breaths.
- IncreaseĀ psychomotor abilitiesĀ including CPR, intubation, needle decompression, chest tube insertion and more.
- Move through theĀ full scope of patient careĀ from initial CPR maneuvers to bag-valve-mask ventilation and intubation, all the way to complex ventilator management skills and weaning.
RespiPro Manikin is part of IngMar MedicalāsĀ RespiSimĀ®Ā system for ventilator management training, an unmatched, all-in-one respiratory simulation solution for providing high-fidelity, effective simulation experiences.
Use the ASL 5000Ā® to:
- Perform long term testing on all ventilator modes with virtually any patient type
- Develop adaptive algorithms on ventilators
- Simulate patient breathing associated with sleep apnea for development of CPAP devices
- Evaluate aerosol drug development aerosol drug delivery devices using realistic high-flow inhalation
- Compare ventilators or ventilator modes (e.g. pressure support mode) on the same reproducible patient
- Create repeatable breath patterns at a high level of accuracy for respiratory device product development with smart pump
- Perform long term testing on all ventilator modes with virtually any patient type
- Develop adaptive algorithms on ventilators
- Simulate patient breathing associated with sleep apnea for development of CPAP devices
- Evaluate aerosol drug development aerosol drug delivery devices using realistic high-flow inhalation
- Compare ventilators or ventilator modes (e.g. pressure support mode) on the same reproducible patient
- Create repeatable breath patterns at a high level of accuracy for respiratory device product development with smart pump