Exonicus is a part of a collaborative project, together with Geneva Foundation, a leading military medicine non-profit organization, and US Army Madigan Medical Center, called “Ready Medic One”. During the duration of the project, four unique chemical, biological, radiological, nuclear and explosive (CBRNE) scenarios will be produced in virtual reality environments, allowing medic preparation for CBRNE events to be widely available for minimal cost.
Currently, hospitals and medical providers are not equipped to handle CBRNE events. Current estimates state that only 21% of hospitals had a formal response plan for radiation incidents and only 62% had chemical decontamination abilities. Due to minimal CBRNE preparedness, training becomes even more important, but the traditional methods are expensive and time-intensive, which, together with the rarity of CBRNE events, compounds the training necessity.
The main goal of the project is to create a high-fidelity simulation at low-cost that can effectively simulate and train medical physicians to make decisions quickly and correctly in a CBRNE scenario.
Virtual reality has been proven by extensive research to be an effective medical education modality that enables physicians to learn and maintain technical and interpersonal skills. The idea is to apply this cutting-edge technology to the CBRNE events. The solution should be able to integrate with other medical simulation tools, such as the University of Washington’s Advanced Modular Manikin to enable future innovations. Using a headset and a computer for a setup cost of less than $3000, the solution would be accessible even in offline environments.
The team committed to developing four scenarios.
- Sarin Gas
- Opioid Poisoning
- Radiation Exposure
While these CBRNE events span a breadth of medical specialties, they share a few features in common. They are hard to train for and represent some of the most catastrophic and traumatic events in combat. Considering the high complexity of medical simulation for these events, mixed virtual reality is perfectly suited to meet the need for sophisticated simulations.
Exonicus has the software development expertise, the medical knowledge, and the history of work to deliver high-fidelity scenarios. Having conducted several research studies proving the efficacy of virtual reality as a medical education modality, our team was well-positioned to continue its track record as a trailblazer in this field.
Most importantly, Exonicus boasts the organizational maturity to tackle complex multi-stakeholder coordination. In this project, Exonicus collaborates with several major organizations on development and project management, in addition to soliciting the opinions of dozens of experts. The team works together with BioGears to develop the powerful physiology engine, facilitating life-like responses to medical interventions.
At the same time, Exonicus works to align with the University of Washington’s Advanced Modular Manikin program for future collaborations. To add even more complexity, Exonicus Inc. works with the Geneva Foundation on program management and Madigan Army Medical Center on training curricula for CBRNE incidents.
This is not a complete list of the collaborators for this project, but the breadth of contributors is a testament to Exonicus’s commitment to finding the best talent, wherever that talent exists. As an international and cross-disciplinary project, the CBRNE scenario development is one of the most difficult management problems yet. However, our team maintains its disruptive startup attitude while cultivating organizational abilities of established companies, making it a trustworthy partner.
This is one of the projects that is currently under development for Exonicus, with prototypes and certain scenarios are completed and undergoing extensive testing. The Sarin Gas and Synthetic Opioid scenarios are fully completed and ready for demonstrations. This project has been showcased at the Military Health System Research Symposium 2022, the International Meeting on Simulation in Healthcare 2022, Madigan Research Day 2022, the North Atlantic Treaty Organization (NATO) Military Medicine Center of Excellence, and the Joint Services Symposium in Emergency Medicine 2022.
Investing in virtual reality medical simulation for CBRNE events could save lives. It is more cost-effective than traditional medical simulation, and in certain important ways, it is more realistic than some CBRNE medical simulation techniques. Developing and deploying this solution at scale will ensure that both civilian and military personnel are well-equipped to handle cataclysmic CBRNE situations.