Pediatric HAL® S3005
Wireless and Tetherless Five-Year-Old Pediatric Simulator
Live Virtual Demo
Available
Realistic airway
Supports oral and nasal endotracheal intubation and features a tracheostomy site for care exercises.
Airway and breathing
Programmable chest rise and respiratory patterns.
Real-time CPR feedback
Realistic chest recoil, visible chest rise with PPV, and variable central cyanosis.
Intraosseous access
Intraosseous infusion and injection system with realistic tibia bones.
Supports real monitors
Monitor BP and ECG. Pace and defibrillate using live energy.
IV Access
Supports bolus, infusion, and sampling.
Powered by UNI® 3
Patient simulator control software that is powerful and easy to use.
UNI® features easy-to-use physiological controls, task automation, real-time feedback, and data capture tools designed to help you facilitate training experiences that are immersive and effective.
Includes the Pediatric HAL®
Simulation Learning Experiences™ scenario package.
The Pediatric HAL® Simulation Learning Experiences™ (SLEs) package provides you with a library of ready-to-use, evidence-based scenarios designed to help you maximize participants learning through outcome-focused simulated clinical patient encounters. The package includes 10 SLEs, complete with a facilitator’s guidebook for planning, setting up, and facilitating each learning experience.
1. Maximum wireless range will vary depending on environmental factors and conditions.
Priced without options, discounts, or special offers. Taxes and other fees not included. Extended service plans, product installation, and training services are available. Product design and price subject to change without notice. All trademarks and/or copyright materials are the property of their respective owners. © 2020 Gaumard Scientific. Patented; other patents pending. All Rights Reserved.
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Bridging the gap between theory and practice.
By synchronizing holograms with the physical world, Obstetric MR allows learners to see inside VICTORIA and observe the dynamic physiology underlying difficult deliveries to promote deeper learning. Wireless connectivity supports up to 6 participants, with each observing their unique vantage point.
Seamless and powerful scenario integration.
Obstetric MR adds a new layer of learning to normal vaginal birth, shoulder dystocia, and breech scenarios. It integrates seamlessly with VICTORIA’s new Simulation Learning Experiences childbirth scenarios as well as your custom scenarios and on-the-fly operation.
Observe clinical intervention in real-time.
Obstetric MR, VICTORIA’s internal network of sensors, and the powerful UNI® control software work together to provide learners with real-time visual feedback. Learners can study the rotation of the pelvis and the fetal shoulder during McRoberts and suprapubic pressure maneuvers as they perform them. It is an entirely new way to observe and understand clinical cause and effect through hands-on practice.