Lusi
Neonatal Lung Simulator
LuSi- World’s Only Autonomous
Neonatal Lung Simulator
Trains clinicians to
assess lung function and
treatment response in
newborns (without
needing an operator).
Trains clinicians to assess lung function and treatment response in newborns (without needing an operator).
LuSi, our Neonatal Lung Simulator, is worlds first and Only Autonomous and
advance bby lng simulator with ealtime Response. o train clinicians in the
assessment о! pulmonary function and responds o Weatment withou operators
intervention. It an simulate pathologies lke RDS,ung collapse, weak muscular
“actity, pneumothorax, airway obstruction, etc. Models based on scientific
iterature, for example Latzin eL.al. Lung Volume, Breathing Pattern and
Ventiation Inhomogeneity in Preterm and Term Infants.
World’s first autonomous and advanced baby lung simulator designed to train medical professionals
Patented and Proprietary Product
World’s first autonomous and advanced baby lung simulator designed to train medical professionals.
Patented and Proprietary Product
Unique Simulation Features
Realistic Clinical Ventilator Simulation
Use the Vital Signs Monitor window to display the results of treatment in real-time. Include pre-ductal апа arterial pulse oximetry. Configure the monitor to match the device of your unit. Modify technical features of monitors, for example the rise time of capnometers, 10 teach potential ап limitations for use in neonates.
Plug-and-Play Solution
Hardware : LuSi is shipped in a flight case ready to be used, complete with rechargeable batteries, battery charger and software.
Software : The windows based scenario building and editing software LuSiLIFE runs on almost all laptops and communicates with LuSi via Bluetooth.
Vital Signs Monitor : Vital signs monitor is created by simply adding a second monitor to the laptop and expanding the display. NOTE: Laptop and external monitor are not part of the delivery!
Autonomous Lung Simulation
Clinical training on mechanical ventilation for hospitals, simulation centres, universities .Design support апа testing of respiratory devices for manufacturers, test-houses, biomedical engineering,etc. Quality assurance for hospitals and manufacturers о! respiratory care devices
Integrated Vital Signs Monitor
Autonomous lung simulator to train clinicians in the assessment of pulmonary
function and the application of respiratory therapy without risk to patients:
o application of NCPAP
o high-flow oxygen therapy
o invasive ventilation
o high-frequency ventilation
o effects of surfactant therapy
o interpretation of ventilator data
o ventilator alarm setting
o interpretation of vital sign
Specifications
Breathing
- Spontaneous breathing
- Programmable respiratory complications
- Programmable respiratory rate
- Programmable chest rise and fall
- Respiratory rate synced to patient monitor vital signs
- Mechanical ventilation (PCV and VCV) PEEP (up to 40 cm H2O)
- Audible needle decompression with realistic feedback
- Variable Bronchi Resistance
Airways
- Head tilt, chin lift, jaw thrust
- Pneumothorax and hydrothorax
- Sellick manoeuvre
- Positive pressure ventilation
- Programmable airway resistance
- Intubation depth detection and logging
- Pharyngeal airflow obstruction
- Esophageal intubation
- Imitation of trismus, tonic and clonic seizures
- Cyanosis and acrocyanosis
- Bilateral chest rise and fall
- Programmable bilateral bronchi resistance
- BVM Ventilatilation
- Tongue edema
- Laryngospasm
Blood Ausculation
- Chest compressions
- Chest compressions
- Programmable pulse strength
- Defibrillator pads correct placement and logging
- Defibrillation, cardioversion and cardiac pacing using real devices
- Anatomically accurate landmarks to position your hands for chest compressions
- Successful compressions with their logging and effect on HR and ECG
- Defibrillation in manual and automatic modes
Ausculation
- Convulsions
- Programmable blinking
- Programmable pupils
- Normal/abnormal bowel sounds
- Auscultation of heart sounds (5 points), lung anterior sounds (5 points), lung posterior sounds (4 points), bowel sounds (4 points)
- Programmable bilateral chest rise and fall, synced with breathing - Neurology
CPR
- Realistic chest compressions
- Automatic activity log, displaying all user actions
- Depth, frequency, hands placement assessment and log
- Ventilation volume
- Manual configuration of CPR protocols
- Printable detailed CPR assessment
Other Features
- Use of a microphone to transmit information through the simulator
- Rich library of vocal sounds (moaning, coughing, pre-recorded words and phrases)
- Realistic bone structure, palpable ribs, kneecaps and many more
- Pre-installed themes, scenarios, programs and the Scenario Constructor
- software to design your own scenario
- Secretion: sweat, tears, ear discharge, oral secretions, urine and bleeding
- Realistic teeth, soft cheeks and gums.
Trainer control software LuSiLIFE
The design апа selection of pathologies is controlled by LuSiLIFE, a touch screen
enabled, pathology building and execution program. Execution of pre assembled
cases, loading оf patient case libraries, on-the-fly changes, notes taking and
complete data recording for later analysis
Our innovative simulation products provide immersive training experiences that enhance clinical proficiency and decision-making. Get in touch with us to discover how our solutions can elevate your training and improve patient outcomes.”
Frequently Asked Questions (FAQs)
What exactly is a neonatal lung simulator, and do I really need it for ventilation training?
A neonatal lung simulator, like LuSi, acts as a realistic stand-in for a newborn’s lungs. It lets healthcare teams safely practice ventilation techniques, making sure clinicians are confident and precise before working with fragile infants.
What features can LuSi mimic to help me train?
LuSi, Which is an autonomous lung simulator . it can simulate different breathing patterns, lung diseases (like RDS or pneumothorax), airway problems, and even sense & display changes in blood gases just like you might see in a real NICU.
How will practicing on LuSi improve my ventilation skills with real babies?
LuSi helps you understand & decide the respiratory treatment to be given to the newborn how different ventilator settings affect neonatal lungs, lets you see immediate feedback on it also helps the trainee identify how “vital signs,” and teaches you to manage emergency scenarios in a risk-free way.
What’s the bonus of an autonomous lung simulator compared to traditional models?
Having an autonomous simulator means no one needs to operate it from behind the curtain. LuSi responds in real-time to your actions, so the experience is as close as possible to working with a live patient—goodbye, “pretend” scenarios!
Can I recreate emergencies I see in my NICU, like sudden airway blockages or lung collapse?
Absolutely! LuSi’s software allows you to program common and rare emergencies, so you and your team can practice responding calmly and appropriately every time.
I’ve heard about other simulators—what makes LuSi unique?
LuSi is the only patented, fully autonomous baby lung simulator . bringing advanced features like integrated vital signs, programmable lung compliance, ABG and real ventilator alarms—all in one portable, easy-to-use system.
How easy is it to set up and start a training session with LuSi?
Very easy! LuSi arrives ready to go—just unpack, connect it to your laptop (with the software), and you can create or select a scenario in minutes.
What if I want to review how trainees performed during the simulation?
No problem. LuSi automatically records actions, performance data, and vital signs, letting trainers review, debrief, and provide meaningful feedback.
Is LuSi useful for industry and engineering teams, or just for medical training?
LuSi is built for both! Clinical teams use it for hands-on training, while biomedical engineers use it to test and validate respiratory care devices and build quality assurance protocols.
How do I contact Maverick Simulation Solutions to ask about demos, pricing, or support?
You can reach our team by phone at +91 9205139007/08 or by email at info@mavericksimulation.com—we’re happy to set up a demonstration or answer any questionss.