US20250261997
2025-08-21
Human necessities
A61B34/10
The patent application describes a system designed to enhance surgical procedures through real-time analysis and recommendations. A computer system, often referred to as a surgical hub, is integrated with surgical devices to gather perioperative data. This data is used to determine the context of ongoing surgical procedures, allowing for precise monitoring and comparison against established baselines. The primary goal is to identify deviations from optimal procedural variables and provide timely recommendations to the surgical team.
The system comprises a processor and a memory unit that stores specific instructions for data processing. When connected to surgical devices, it receives perioperative data, which includes various metrics related to the procedure. The system then analyzes this data to ascertain the surgical context and relevant procedural variables. By comparing these variables against predefined baselines, the system can offer insights into whether the procedure aligns with optimal standards.
This technology enables both intraoperative and postoperative recommendations based on real-time data analysis. During surgery, if any procedural variable deviates from its baseline, the system can alert the surgical staff immediately. Postoperatively, it can provide detailed feedback to help refine techniques for future procedures. This proactive approach aims to improve surgical outcomes by ensuring adherence to best practices.
The system is designed to work seamlessly with various surgical devices and potentially integrate with video cameras for recording procedures. This integration allows for comprehensive monitoring and analysis of surgeries, enabling the replay of procedures with highlighted deviations from baselines. Furthermore, the system supports cloud connectivity, facilitating a broader network of data sharing and analysis across multiple healthcare facilities.
By leveraging advanced data analytics in surgery, this system offers significant benefits such as improved precision in surgical performance and enhanced situational awareness for medical staff. The ability to provide immediate feedback during surgeries helps in minimizing errors, while postoperative analysis aids in continuous improvement of surgical techniques. Overall, this innovation aims to elevate the standard of care in surgical environments through technological integration and intelligent data utilization.