In the realm of neurosurgery, precision is paramount. The RONNA G6, developed by RONNA Medical, is setting new standards in robotic-assisted neurosurgical procedures. This advanced system enhances accuracy, efficiency, and patient safety during complex brain surgeries, combining state-of-the-art robotics with a human-centric design.
The RONNA G6 system comprises several key components that work together to optimize surgical precision:
- Robotic unit: A medical-grade robotic arm with seven degrees of freedom forms the core of the system, providing exceptional flexibility and mobility within the surgical field. Integrated force feedback sensors in each joint enable neurosurgeons to interact with the system intuitively, ensuring precise control and enhanced safety.
- Planning station: This component features advanced, user-friendly software that simplifies surgical planning. From preoperative analysis to precise instrument control, the intuitive interface streamlines workflows, enhancing efficiency for the surgical team.
- Stabilization device: A stabilization device minimizes vibrations and external disturbances, ensuring the robotic arm’s steadiness during procedures and contributing to the system’s overall reliability.
Human-Centric design
Designed for practicality and innovation, the RONNA G6 integrates into diverse operating room environments.
Its compact footprint and optimized robot positioning allow for flexible spatial configurations, close patient proximity, and maximum rigidity for precise instrument guidance, ensuring exceptional accuracy during complex procedures. With user-friendly operation and advanced technical capabilities, the RONNA G6 is a trusted solution for minimally invasive neurosurgery.
Mobile platform for greater efficiency
Hospitals can optimize resources and reduce procedure times with the RONNA G6’s mobile platform. A fully motorized propulsion system enables rapid and precise setup, and the autonomous platform allows for automatic docking and dynamic positioning, surpassing manual methods in accuracy and efficiency. The tilted robotic arm further optimizes space utilization.
Advanced robotics for unmatched precision
High-precision calibration and positioning algorithms enable the RONNA G6 to achieve sub-millimetric precision. A level of accuracy often lacking in robotic systems with open kinematic designs. The system calculates the optimal robot position relative to the patient and surgical targets, providing real-time layout suggestions for enhanced accuracy in delicate procedures.
Surgery planning and control software
Designed with surgical teams in mind, the RONNA G6 features advanced, user-friendly planning and control software.
Its intuitive interface supports every stage of the procedure, from preoperative analysis to precise instrument control, streamlining workflows for enhanced efficiency. The added benefit of remote accessibility allows surgeons to plan and prepare from any location, further enhancing efficiency and readiness.
Automatic patient localization and registration
The RONNA G6 revolutionizes robotic surgery with fully automated patient localization and registration, ensuring exceptional precision and efficiency. By automating repetitive tasks through advanced algorithms, it minimizes human error and eliminates the risks associated with manual processes. This innovation allows surgeons to focus on critical aspects of surgery, improving patient outcomes and enhancing overall safety.
The role of AI in robotic neurosurgery
The integration of machine learning algorithms allows the system to continuously improve its precision by analyzing past surgeries and refining movement accuracy. AI-powered image recognition assists in preoperative planning, automatically detecting anatomical structures and suggesting optimal surgical trajectories. Additionally, real-time AI-driven data processing enables adaptive decision-making, helping surgeons anticipate complications before they arise. This fusion of AI and robotics marks a significant leap forward in neurosurgical procedures, reducing cognitive load on surgeons while improving patient outcomes.
The future with RONNA
The RONNA G6 is a versatile platform designed for a range of surgical procedures, including brain, spine, and prostate biopsies. Its ability to support continuous software and hardware upgrades ensures it evolves alongside advancements in surgical technology. This adaptability makes it a long-term investment for hospitals seeking flexibility and innovation in robotic-assisted surgery.
Conclusion
The RONNA Medical robotic arm has achieved significant milestones in neurosurgery, particularly in performing brain biopsies. A clinical study evaluating the RONNA G4 system demonstrated its safety and accuracy in 23 frameless robotic biopsies. The study reported a diagnostic yield of 95.6% with no reported postoperative complications. The system’s sub-millimetric precision, achieved through advanced calibration and positioning algorithms, sets a new standard in robotic neurosurgery. Additionally, the RONNA G6’s fully automated patient registration and optimal robot positioning enhance surgical efficiency and accuracy.
