Orthopedic and Interventional Cardiology Simulation

Orthopedic Surgery and Interventional Cardiology training modules designed for advanced procedural training, decision-making, and technical skill refinement, this suite demonstrates the power of VR to accelerate learning curves while reducing patient risk.

Key Features of the Training Suite:

Orthopedic Surgery Modules

• Procedures include: Tibial nailing, hip fixation, total knee arthroplasty, and spinal decompression.

• Realistic haptic feedback replicates tactile sensations for drilling, sawing, reaming, and implant placement.

• Fluoroscopic and navigation-guided workflows, simulating intraoperative imaging for precise alignment and reduction.

• Anatomy-specific variations, allowing trainees to adapt to fracture complexity, bone density, and anatomical differences.

• Performance scoring on metrics such as alignment, screw trajectory, implant fit, and procedural time.

Interventional Cardiology Module

• Procedures include: Coronary angioplasty, stent deployment, TAVR, and radial access techniques.

• Simulated cath lab environment, including sheath insertion, guidewire navigation, catheter control, and fluoroscopic imaging.

• Live hemodynamic feedback, challenging users to respond to changes in blood pressure, arrhythmias, and contrast flow.

• Real-time complication scenarios, such as vessel dissection, thrombus formation, or hypotensive events, reinforcing critical thinking.

• Integrated team training mode, allowing multidisciplinary collaboration and procedural communication exercises.

Cross-Module Benefits:

• Modular and scalable design, suitable for medical schools, residency programs, and hospital-based simulation centers.

• Objective performance analytics, providing detailed feedback on technical precision, procedural efficiency, and clinical judgment.

• Adaptive learning pathways, enabling self-guided practice or instructor-led scenarios with variable difficulty.

• Device-neutral compatibility, supporting leading VR headsets and simulation hardware for institutional integration.

VR training stands as a versatile and deeply immersive tool, showcasing the potential of virtual reality to train future orthopedic and interventional cardiology specialists with confidence, safety, and clinical accuracy.