VR Surgical Training
An industry-leading VR training platform that uses haptic feedback and AI-driven performance assessment to train surgeons on complex orthopedic procedures.
The story
behind it
Johnson & Johnson needed a scalable way to train global surgical teams. We built an immersive simulation environment that mimics real-world surgical environments with extreme precision.
What stood in the way
Traditional surgical training is expensive, requires physical cadavers, and offers limited objective performance metrics for trainees.
How we made it happen
A custom Unity-based VR application integrated with haptic peripherals and an AI scoring engine that evaluates surgical precision in real-time.
Impact that speaks
Skill Acquisition
Surgeons reached proficiency levels significantly faster compared to traditional classroom methods.
Accuracy Gain
Measurable improvement in bone-drilling and implant placement precision during clinical trials.
Scalable Deployment
Training now accessible across 15+ international medical centers via secure cloud synchronization.
A closer look
What we
delivered
Every feature was built with purpose, performance, and user experience at its core.
Tools & technologies
From concept to launch
Clinical Mapping
Working with expert surgeons to decompose complex procedures into digital workflows.
Bespoke Physics Engine
Developing custom haptic and rigid-body physics to simulate realistic bone and tissue interaction.
AI Scoring Engine
Training machine learning models to identify and score surgical precision and deviations.
Pilot Validation
Rigorous clinical testing and global rollout across Johnson & Johnson training institutes.
Common questions
Let's build something remarkable together
We'd love to discuss how we can help bring your vision to life. Our team has extensive experience across AI, web, mobile, and cloud technologies.
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