Synchronized Robotic Surgery: Introducing IX Innovation's Patent 11,464,650
Synchronized Placement of Surgical implant Hardware

Welcome to the future of automated and robotic surgical procedures, specifically systems and methods for the synchronization of multiple robotic arms and synchronized placement of surgical implant hardware. Patent 11,464,650 presents a significant advancement in the field of robotic surgery and automated medical procedures, offering a solution to reduce errors and adverse events during surgical procedures.. It is a prized asset for medical device startups, mid-size companies, and large corporations alike, offering numerous benefits that make it key for shaping the future of robotic surgery.

patent CLAIMS
The patent tackles problems that can occur during surgeries, such as communication issues among the surgical team, delays in diagnosis or treatment, and mistakes during the operation itself. It introduces a solution that uses multiple robotic arms working together within a small space. This system enhances the way robotic systems are set up and work together, enabling multiple robotic arms controlled by different controllers to work in sync. This technology can carry out tasks based on a single surgeon's workflow and instructions, removing the need for an extra surgeon or technician. It can manage the synchronized operation of multiple surgical robots or robotic arms, allowing for more intricate surgical procedures, especially in small areas.
Why Is This Patent Valuable?

As robotic surgery improves, this patent represents a significant breakthrough in the synchronization of multiple robotic arms and the precise placement of surgical implant hardware, setting a new standard in automated medical procedures.
  • Synchronized Robotic Surgery
    The patent provides methods for the synchronized placement of surgical implant hardware, which can significantly improve the efficiency and safety of surgical procedures.
  • Improved Surgical Efficiency
    By enabling the coordination of multiple surgical robots or robotic arms, it allows for more complex surgical procedures to be completed more efficiently.
  • Reduced Personnel Requirement
    The technology could potentially reduce the number of personnel needed to complete a surgery, thus reducing costs.
  • Patient Safety
    The ability to complete surgical steps at the same time reduces stress on the patient's body when installing surgical implants, thus reducing the risk of medical complications during a surgical procedure.
  • Enhanced Precision and Stability
    The robotic surgery technologies disclosed in the patent offer valuable enhancements to medical or surgical processes through improved precision, stability, and dexterity.
  • Cost Efficiency
    The adoption of the systems and methods described in this patent could lead to efficiency and speed improvements, lower costs, and higher accuracy in surgical procedures.
  • Training and Education
    The technology could be used in training scenarios, helping to educate new surgeons on complex procedures in a controlled and safe environment.
  • Scalability
    The technology can be adapted for use in a variety of surgical procedures, making it a versatile tool that can be scaled across different areas of medicine.
Invest in IX Innovation's Patent 11,464,650
Investing in Patent 11,464,650 supports the future of human surgery particularly in the synchronization of multiple robotic arms and the precise placement of surgical implant hardware
Synchronized Surgical Implants, Medical Innovation, Medical Incubator and Consulting
Additional IX Innovation IP Assets
The future of surgery is here, as these surgical implant systems continue to evolve and mature, they will undoubtedly become a mainstay in operating rooms across the world
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