Self-Paced or Instructor-Led Training That Adapts to Any Training Model
Traditional simulation-based learning is constrained by the need for instructors, physical manikins, and medical equipment. The Exonicus solution liberates training programs from these limitations, enabling trainees to engage in simulation-based learning whether an instructor is present or on their own time. This flexibility supports multiple training modalities:
Trainees can access VR simulations independently, practicing clinical skills and decision-making at their own pace, on their own schedule. This is particularly valuable for geographically dispersed teams, shift workers, or learners who need additional practice outside formal training hours.
When instructors are available, they can guide learners through scenarios in real-time, providing immediate feedback, adjusting difficulty levels, and facilitating debriefing sessions. Multiple learners can participate simultaneously in the same virtual environment, enabling team training and collaborative problem-solving.
Combine self-paced foundational training with instructor-led advanced scenarios, maximizing the efficiency of both learner time and instructor expertise.
Rapid Scenario Adjustment and Creation
Adjust prebuilt scenarios in real-time to match specific learning objectives, patient populations, or clinical protocols. Change patient vitals, symptoms, complications, or environmental factors on the fly to create teaching moments tailored to your learners' needs.
Our innovative authoring tools enable instructors to go from concept to fully functional scenario in as little as 10 minutes. This unprecedented speed allows training programs to:
-Quickly incorporate recent real-world cases into training curricula
-Respond to emerging clinical challenges or disease patterns
-Create organization-specific scenarios that reflect local protocols and patient populations
-Test new clinical approaches in a risk-free virtual environment
While we provide an extensive library of prebuilt scenarios covering common and rare clinical situations, we understand that effective education requires precise alignment of content with curriculum goals.
Customization Options
Current offerings: Custom content development services where our team works with you to create scenarios that perfectly match your training objectives
Coming Late 2025: Scenario Builder release that puts content creation and modification power directly in your hands. Various authoring mode packages will be available, allowing you to choose the level of control and complexity that best aligns with your needs, technical expertise, and goals.
Automated Foundational Training
Free Instructors from Repetitive Basic Instruction: Automated foundational modules cover essential basics before, during, or after formal training sessions, allowing instructors to focus their valuable time on advanced concepts, nuanced clinical decision-making, and complex case discussions.
The Exonicus Approach: Our solution enables learners to master foundational skills through engaging simulation content independently, ensuring they arrive at instructor-led sessions prepared to tackle more sophisticated clinical challenges. This "flipped classroom" approach maximizes the return on instructor time while providing learners with unlimited opportunities to practice basics until they achieve mastery.
Current Content Offerings:
Comprehensive modules covering Tier 1 tactical combat casualty care principles and scenarios covering elements of Tier 2,3, and 4
Complete patient triage and rapid casualty assessment graded based on the SALT protocol.
Our Scenario Authoring Tool is currently equipped with extensive features supporting trauma care training across a wide variety of methods and injury patterns
CPR Training Modules: Basic life support scenarios with realistic chest compression mechanics and feedback
Advanced Cardiac Resuscitation: Internationally recognized protocols, complex arrhythmia management, and team-based resuscitation scenarios
Turn Downtime into Sustainment Training
Many healthcare and emergency response professionals experience significant periods of downtime without active clinical engagement. This is particularly common among:
-Military medics during peacetime or deployment gaps
-Remote police, fire, and EMS crews during overnight shifts
-Hospital emergency department teams during slow periods
-Rural healthcare providers with limited patient volumes
The Exonicus solution transforms this downtime into valuable simulation-based training opportunities. Instead of waiting for the next call or patient, team members can:
-Practice high-acuity, low-frequency scenarios they rarely encounter in real practice
-Maintain proficiency in critical skills that atrophy without regular use
-Train on new equipment or protocols in a risk-free environment
-Learn about hospital protocols and procedures in a simulation environment
Unlike traditional simulation that requires dedicated simulation lab time, physical setup, and instructor presence, VR simulation can be deployed wherever your team is stationed. A simple VR headset transforms any break room, office, or downtime location into a sophisticated training environment.
Instant Clinical Practice Guideline Updates and Validation
The CPG Challenge: Most healthcare organizations struggle with disseminating clinical practice guideline (CPG) updates and ensuring compliance. Traditional methods - reading updated protocols, attending lectures, or reviewing documents - often fail to translate into changed behavior in high-stress clinical situations.
Simulation-Based Guideline Implementation: The Exonicus solution enables you to embed CPG updates directly into simulation scenarios, providing:
The Best of Both Worlds
While augmented reality offers unparalleled flexibility and scalability, certain psychomotor skills benefit from tactile feedback that physical manikins provide. The Exonicus solution supports hybrid training models that combine AR cognitive training with physical skills practice.
AR for Cognitive Skills
Use virtual reality to train clinical decision-making, diagnostic reasoning, team communication, medication management, and procedural planning. Learners can practice these cognitive elements unlimited times without consuming physical resources.
Physical Manikins for Hands-On Skills: Reserve expensive physical manikins and instructor time for practicing technical procedures that require tactile feedback—intubation, chest compressions, IV insertion, wound management, and other hands-on interventions.
Resource Optimization: This hybrid approach maximizes the lifespan and effectiveness of expensive physical simulation equipment while providing unlimited practice opportunities through VR. Organizations can reduce the number of physical manikins needed while actually increasing total training hours.
Multi-Domain Training Environment
The Exonicus solution supports integration across Live, Virtual, and Constructive training modalities, enabling sophisticated multi-echelon training scenarios that reflect real-world complexity.
Understanding LVC in Medical Context:
Live Training: Real people using real equipment in real environments (traditional clinical rotations, field exercises, or physical simulation labs)
Virtual Training: Real people using simulated equipment in simulated environments (VR scenarios, computer-based simulations)
Constructive Training: Simulated people using simulated equipment in simulated environments (AI-driven patient behaviors, computer-generated casualty loads, automated scenario progression)
Integrated Training Scenarios:
Multiple participants in different physical locations can train together in the same virtual environment. An instructor in one location can observe and guide learners across multiple sites simultaneously.
Constructive elements generate realistic casualty patterns and evacuation timelines while virtual participants practice triage and treatment decisions and live participants practice physical skills on manikins.
Simulate the entire casualty evacuation chain—from point of injury (virtual) through tactical evacuation (virtual/live hybrid) to surgical facility (live with physical manikins)—in a single coordinated exercise.
Connect AR training environments to actual communication systems (radios, phones, telemedicine platforms) so participants practice using real equipment while treating virtual patients.