Core Viewpoint - The vascular interventional surgery robot market is rapidly growing, driven by technological advancements, capital investment, and increasing demand, with significant potential for development in China due to the high prevalence of cardiovascular diseases [1][4][8]. Industry Definition and Classification - Vascular interventional surgery robots assist doctors in performing diagnostic and therapeutic procedures guided by medical imaging, utilizing tools such as needles, guidewires, and catheters. They can be classified based on functionality and application techniques, with coronary intervention being the most developed area globally [2][4]. Current Industry Development Status - The vascular interventional surgery robot market has seen substantial growth, with the global market size increasing from $0.03 billion in 2016 to $1.8 billion in 2022, and projected to reach approximately $5.3 billion by 2024 and over $10 billion by 2025 [4][6][8]. Market Potential in China - The vascular interventional surgery robot market in China is still in its early stages, with a market size of approximately $0.29 million in 2022, expected to grow to about $8.58 million by 2025, driven by the high incidence and mortality rates of cardiovascular diseases [8][19]. Industry Chain - The industry chain for vascular interventional surgery robots includes upstream components and materials, midstream equipment manufacturing and system integration, and downstream clinical applications and services [10]. Competitive Landscape - The competitive landscape includes both international and domestic companies. Notable international players have received FDA and CE certifications, while domestic companies are beginning to achieve significant milestones, such as the approval of the first domestic vascular interventional surgery robot by Yidu Medical [12][17][18]. Future Development Trends - The future of vascular interventional surgery robots is expected to feature enhanced feedback and advanced force control capabilities, integrating advanced imaging navigation functions, and expanding applications across various types of vascular interventions [19].