- In April 2025, researchers introduced Sim4EndoR, a reinforcement learning-based simulation platform designed to enhance task-level autonomy in endovascular robotics. This platform aims to improve precision and safety in robotic-assisted PCI by providing a risk-free environment for developing and refining autonomous systems, potentially reducing reliance on human operators and minimizing procedural variability
- In April 2025, researchers introduced Sim4EndoR, a reinforcement learning-based simulation platform designed to enhance task-level autonomy in endovascular robotics. This platform aims to improve precision and safety in robotic-assisted PCI by providing a risk-free environment for developing and refining autonomous systems, potentially reducing reliance on human operators and minimizing procedural variability
- In October 2024, a study published in the Journal of the Society for Cardiovascular Angiography & Interventions highlighted the benefits of robotic-assisted PCI in reducing occupational hazards for interventional cardiologists. The study emphasized that robotic systems can minimize radiation exposure and physical strain, contributing to safer working conditions for medical professionals
- In September 2024, the International Journal of Cardiovascular Research reported on the latest advancements in robotic PCI technology, focusing on developments in procedural complexity, tele-stenting, and training methods. These innovations are contributing to the global expansion of robotic-assisted PCI by enhancing procedural efficiency and accessibility
- In January 2024, the American College of Cardiology published an article discussing the increasing adoption of robotic-assisted solutions in cardiovascular interventions. The article noted that as market dynamics evolve and more surgeons become proficient with robotic systems, the prevalence of robotic-assisted PCI is expected to rise, supported by accumulating evidence of its benefits
