ROBOTICALLY COORDINATED SURGICAL VISUALIZATION

Organization Name

LEM Surgical AG

Inventor(s)

Yossi Bar of Bern (CH)

ROBOTICALLY COORDINATED SURGICAL VISUALIZATION - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240268919 titled 'ROBOTICALLY COORDINATED SURGICAL VISUALIZATION

The patent application describes robotically controlled and coordinated surgical navigation systems with displays featuring virtual and/or augmented reality capabilities. Multi-arm robotic systems are equipped with cameras, tools, and virtual and/or augmented reality screens, all mounted on a chassis with a control unit. The robotic arms can be deployed in a coordinated manner to interact with trackers, cameras, screens, and surgical instruments during procedures, including spinal robotic surgery.

• Displays with virtual and/or augmented reality capabilities
• Multi-arm robotic systems with cameras, tools, and screens
• Robotic arms deployed on a chassis with a control unit
• Coordinated deployment of multiple robotic elements
• Used in surgical procedures, including spinal robotic surgery

Potential Applications: - Minimally invasive surgery - Precision surgical procedures - Medical training and education

Problems Solved: - Enhancing surgical precision and accuracy - Improving visualization during procedures - Streamlining surgical workflow

Benefits: - Increased surgical precision - Enhanced visualization for surgeons - Improved patient outcomes

Commercial Applications: Title: Advanced Surgical Navigation Systems for Enhanced Precision Surgery This technology can be utilized in hospitals, surgical centers, and medical research facilities to improve surgical outcomes and streamline procedures. The market implications include increased demand for robotic surgical systems in the healthcare industry.

Questions about the technology: 1. How does the use of virtual and augmented reality screens benefit surgeons during procedures? 2. What are the potential cost savings associated with the implementation of this robotic surgical navigation system?

Frequently Updated Research: Ongoing research focuses on optimizing the coordination and control of multiple robotic elements in surgical navigation systems to further enhance precision and efficiency in procedures.

Original Abstract Submitted

robotically controlled and coordinated surgical navigation systems include displays which may have virtual and/or augmented reality capabilities. multi-arm robotic systems hold cameras, tools, and virtual and/or augmented reality screens the robotic arms are deployed on a chassis incorporating a control unit. multiple robotic elements may be attached to the single base and may be controlled by the single control unit in order to be used in a coordinated fashion to deploy and/or relate to trackers, cameras, virtual and/or augmented reality screens and surgical instruments as part of a robotic surgery procedure that may optionally be a spinal robotic surgery procedure.