PEER-TO-PEER SURGICAL INSTRUMENT MONITORING

Organization Name

Cilag GmbH International

Inventor(s)

Frederick E. Shelton, Iv of Hillsboro OH (US)

David C. Yates of Marrow OH (US)

Shane R. Adams of Lebanon OH (US)

Kevin M. Fiebig of Cincinnati OH (US)

PEER-TO-PEER SURGICAL INSTRUMENT MONITORING - A simplified explanation of the abstract

This abstract first appeared for US patent application 18092049 titled 'PEER-TO-PEER SURGICAL INSTRUMENT MONITORING

Simplified Explanation

The patent application describes a system for monitoring surgical instruments in a peer-to-peer interconnected surgical ecosystem without the need for a central computing device.

• Surgical instruments can configure themselves as monitoring devices or peer instruments within the ecosystem.
• Monitoring instruments can establish peer-to-peer connections with other instruments to monitor and record surgical tasks.
• The system allows for real-time monitoring and recording of surgical data during procedures.

Key Features and Innovation

• Peer-to-peer interconnected surgical ecosystem for monitoring surgical instruments.
• Self-configuring surgical instruments based on capabilities.
• Real-time monitoring and recording of surgical data without a central computing device.

Potential Applications

This technology can be used in various surgical settings where real-time monitoring and recording of surgical tasks are required. It can enhance surgical precision, efficiency, and data collection for analysis.

Problems Solved

This technology addresses the need for seamless monitoring and recording of surgical tasks without relying on a central computing device. It streamlines the process and allows for efficient data collection during procedures.

Benefits

• Improved surgical monitoring and recording capabilities.
• Enhanced surgical precision and efficiency.
• Simplified data collection and analysis during procedures.

Commercial Applications

• This technology can be utilized in operating rooms, surgical centers, and other healthcare facilities.
• It can be integrated into surgical instruments and devices to enhance their functionality and data collection capabilities.

Questions about Smart Surgical Instrument Monitoring

How does the peer-to-peer interconnected surgical ecosystem improve surgical monitoring?

The peer-to-peer system allows for seamless communication between surgical instruments, enabling real-time monitoring and recording of surgical tasks without the need for a central computing device.

What are the potential benefits of using self-configuring surgical instruments in a surgical ecosystem?

Self-configuring instruments can adapt to their roles within the ecosystem, allowing for efficient monitoring and recording of surgical data during procedures.

Original Abstract Submitted

Systems, methods, and instrumentalities may be provided for a smart surgical instrument or device monitoring other surgical instruments or devices in a peer-to-peer interconnected surgical ecosystem. Monitoring and/or recording may be performed using the peer-to-peer surgical ecosystem may be performed without engaging a central computing device. A surgical instrument based on respective capabilities may configure itself as a monitoring surgical instrument and other surgical instrument that is part of the surgical ecosystem as a peer surgical instrument. The monitoring surgical instrument may establish a peer-to-peer connection with the peer surgical instrument. to monitor and record the surgical task on the second surgical instrument. The monitoring surgical instrument, using the established peer-to-peer connection, may begin monitoring and/or recording of surgical data associated with a surgical task being performed on the peer surgical instrument.