SPECIALTIES AND RANGES
SIMULATION BASED TRAINING
– High Fidelity Simulation
– Skill Training
– OSCE (Objective structured clinical examination)
SPECIALITIES
– Critical Care
– Emergency Medicine
– Anaesthesia
– Pulmonology
RANGES
– Physicians
– Residents
– Pre-hospital EMS providers
– Undergraduate Medicine
– Respiratory therapists
KEY MARKETS AND USPs
USP (Unique Selling Points)
– Model Driven
– Connection with high fidelity simulators
– Different Ventilation modalities (Simple and Advanced)
KEY MARKETS
– Medical Schools
– Clinical Skills Centers
– Simulation Centers
– Postgraduate Centers
– OSCE’s Programs
– Teaching Hospitals
BACKGROUND
– Need for a mechanical ventilator simulator to be used during clinical simulation scenarios (linked to a simulator)
– Need for a mechanical ventilator simulator to be used and linked with any simulator or manikin (without the need for a real ventilator and real gases to be used)
– Need for teaching mechanical ventilation (stand-alone version)
COVID-19
– Need for teaching how to use a mechanical ventilator during COVID-19 Emergency
RESEARCH AND DEVELOPMENT
INITIAL RESEARCH (2018)
– Potential new markets, current best practice & curriculum investigated
– Competitor models evaluated
LAUNCH YEAR
– 2019
LONG TERM USER TESTING
– University of Ferrara has a prototype on long term to be used with residents in anesthesiology
– University of Bologna has a prototype on long term and used very successfully with residents in emergency medicine
HOW TO USE IT
– The instructor can adjust patient parameters on his browser based interface and he can simulate the
losses
– The user can adjust the ventilator parameters and settings on his interface
– The user can do static measurements and he can ask to inspiratory hold or expiratory hold
– A model-driven “engine” is able to display appropriate pressure, flow and volume curves in real time
FEATURES
Model-driven software
A unique and immersive mechanical ventilator simulator that allows the user to interface with his
human patient simulator.
The stand-alone mode permits the user to train himself on the respiratory mechanism
The simulation mode permits to create advanced simulation scenarios on several cases of pulmonary
diseases or acute respiratory failures while being wirelessly linked to a patient simulator
Incorporates vital signs alterations, ventilator parameters and multiple other features
Possibility to develop the ability to interpret ventilator data, formulate diagnoses and adapt the
treatment to the pathological patient’s case.
It allows the instructors to simulate several patient conditions, for example, chronic obstructive
pulmonary diseases or severe respiratory distress syndromes by simply changing patient parameters
and ventilator values
It is composed of a realistic user interface with integrated controls that simulate a real ventilator.
The instructor can display the instructor interface on PCs, tablets, smartphones connected via the
network, supporting LungSim™ during advanced simulation scenarios.
HOW TO USE IT
The instructor can adjust patient parameters on his browser based interface and he can simulate the
losses
The user can adjust the ventilator parameters and settings on his interface
The user can do static measurements and he can ask to inspiratory hold or expiratory hold
A model-driven “engine” is able to display appropriate pressure, flow and volume curves in real time
The LungSim™ package includes:
N° 1 LUNGSIM box with USB stick with software (1 user lifetime license) and user manual
LungSim™ is a product from Accurate, a company blending international experience, scientific research, engineering and development of truly effective hi-tech educational solutions in the medical field.
Collaborations: Prof. Marco Ranieri (The Italian professor (Bologna university) that just developed a ventilation circuit that allows to use a single respirator to provide oxygen to two patients instead of one only)
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