Technological development has transformed orthopaedic surgical planning and medical procedure execution within the field of surgery. NextAR surgery represents a revolutionary approach that delivers both precise operations and efficient processes and superior results. The Medacta-developed NextAR platform pairs augmented reality technology with intelligent data analytics tools that support surgeons’ real-time orthopaedic procedures, particularly in joint replacement surgeries.
What is NextAR technology?
NextAR (Next Augmented Reality) enables orthopaedic surgeons to view their patients’ anatomy in real-time 3D using augmented reality technology. NextAR departs from conventional navigation methods, which need big consoles and numerous screens, because it transfers relevant data to surgeons through the use of lightweight AR smart glasses.
NextAR serves orthopaedic surgeons in TKA, shoulder arthroplasty and spinal surgery by improving surgical accuracy through direct and efficient visualisation.
How Does It Work?
The surgical system of NextAR unites detailed preoperative manoeuvres with complete intraoperative task completion. Here’s how the NextAR surgery works:
Preoperative Phase:
Surgeons upload joint CT scans to the NextAR software platform to develop complete 3D models of the joint structure. The pre-operative planning process uses this model to guarantee precise measures.
Intraoperative Phase:
The AR headset provides virtual guidance and landmarks which appear directly in front of surgical operators while they operate, thus eliminating their need to view screens. The implant placement process and bone alignment become accurate in real-time.
NextAR surgery offers a minimally invasive system which can be adjusted to existing surgical environments and works with continuous workflows.
Benefits of NextAR Surgery
- Enhanced Precision: The NextAR system helps surgeons obtain precise implant positioning, which lowers the chances of human mistakes occurring during surgical procedures.
- Personalized Surgery: Each patient’s unique anatomy receives individualised planning through this system due to its adaptive capabilities.
- Minimally Invasive: Through its AR interface design, surgeons achieve both minimal cutting techniques and reduced interruptions to body tissues.
- Cost-effective: Standard operating rooms accommodate NextAR surgery because it does not demand costly facility installations, thus differing from robotic systems.
- Portable & Scalable: The AR system operates as a compact module that enables easy scalability across different health facilities.
Clinical Outcomes and Growing Adoption
NextAR-assisted surgical procedures produce superior alignment while yielding accelerated patient recoveries, which decreases the frequency of secondary operative procedures. The healthcare sector is integrating this system because it seamlessly joins robotic precision to surgeon autonomy at a lower technological equipment expense than full robotic systems.
The healthcare industry throughout Europe, North America and Asia sees its potential in delivering innovative cost-effective orthopedic care solutions for healthcare facilities.
Future of AR in Surgery
NextAR operates within the broader transformation of surgical practices toward smarter data-related approaches. AI and AR technologies show promising development for expanding their uses across medical specialties like neurosurgery and cardiac surgery and general surgery.
Conclusion
NextAR surgery transforms orthopedic procedures through its ability to provide precise care alongside practical customization and healthcare-driven augmented reality capabilities in surgery. NextAR represents more than just the healthcare future since it already brings us superior surgical practices in modern medical operations.