As a core clinical application carrier in smart medical construction, the digital operating room is a modern surgical diagnosis and treatment platform. It restructures traditional operating rooms digitally, empowers them intelligently and optimizes operational procedures based on IoT, digital medical imaging, AI-assisted diagnosis and treatment, cloud big data storage and transmission.
Different from conventional surgery relying solely on doctors’ experience with scattered information and isolated operations, it integrates software and hardware to build a closed-loop digital diagnosis system covering pre-operation, intra-operation and post-operation stages. It eliminates information silos, enables real-time sharing and intelligent analysis of patient, equipment and operational data, fundamentally optimizing surgical logic and serving as fundamental infrastructure for precise and intelligent surgery.
Supported by integrated digital and intelligent medical hardware and software, it creates standardized and refined surgical environments with interconnected systems.Core hardware includes high-definition intraoperative imaging devices, intelligent electric operating tables, high-precision minimally invasive surgical instruments, multi-parameter vital sign monitors and sterile digital lighting systems.Key software covers surgical navigation, intelligent management, 3D image reconstruction, intraoperative data tracking and remote surgical collaboration systems. All devices connect via dedicated digital bus, adjusting parameters adaptively to assist doctors in accurate diagnosis, standardized decision-making and delicate operations, transforming experience-based surgery into data and intelligence-driven mode.
Clinically, it empowers full-range multi-disciplinary surgeries including neurosurgery, orthopedics, cardiothoracic surgery, general surgery, urology and minimally invasive surgery, featuring five core functions: preoperative simulation planning, intraoperative precise navigation, real-time dynamic monitoring, remote collaborative treatment and postoperative intelligent review.3D modeling visualizes lesions, blood vessels and nerves preoperatively to simulate surgical routes, assess risks and customize treatment plans. Real-time image transmission, positioning and vital sign monitoring warn of potential hazards such as massive hemorrhage and tissue damage, minimizing manual errors and improving surgical accuracy.

It solves major drawbacks of traditional surgery including low efficiency, uncontrollable risks, limited precision and untraceable data. It presents detailed lesion data beyond naked eye vision, protecting healthy tissues and reducing surgical trauma. Automated equipment linkage and data recording cut redundant manual work, shorten operation time and lower anesthesia risks. Real-time risk alert effectively reduces complications and ensures patient safety and recovery.
Full-process surgical data is structurally collected, cloud-stored and permanently traceable, forming complete electronic medical files. These data support case review, medical quality control, clinical research and physician training. Remote collaboration breaks geographical restrictions, facilitating cross-regional expert consultation and surgical guidance, balancing medical resources and boosting overall regional medical service standard, solidly driving the high-quality development of precise surgery and smart healthcare.