METHOD FOR CONTROLLING SURGICAL SYSTEM DURING TISSUE TREATMENT MOTION

Organization Name

Cilag GmbH International

Inventor(s)

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

Taylor W. Aronhalt of Loveland OH (US)

Michael J. Vendely of Lebanon OH (US)

Shane R. Adams of Lebanon OH (US)

Nicholas J. Ross of Franklin OH (US)

Matthew D. Cowperthwait of Cincinnati OH (US)

Jason L. Harris of Lebanon OH (US)

Kevin M. Fiebig of Cincinnati OH (US)

Eric B. Lafay of Madeira OH (US)

Jose Luis De Cordoba Matilla of Malaga (ES)

Raymond E. Parfett of Loveland OH (US)

Curtis A. Maples of Cincinnati OH (US)

Sarah A. Worthington of Cincinnati OH (US)

Jacqueline C. Aronhalt of Loveland OH (US)

METHOD FOR CONTROLLING SURGICAL SYSTEM DURING TISSUE TREATMENT MOTION - A simplified explanation of the abstract

This abstract first appeared for US patent application 17957917 titled 'METHOD FOR CONTROLLING SURGICAL SYSTEM DURING TISSUE TREATMENT MOTION

Simplified Explanation

The patent application discloses methods, devices, and systems for controlling tissue-treatment motion by a surgical instrument.

• The innovation involves a surgical instrument that can precisely control the motion used for treating tissue during surgical procedures.
• The technology allows for more accurate and controlled tissue treatment, leading to improved surgical outcomes.
• By providing controlled motion, the surgical instrument can enhance the precision and effectiveness of tissue treatment.
• The system can be integrated into existing surgical tools, making it versatile and adaptable for various procedures.

Potential Applications

The technology can be applied in various surgical procedures such as minimally invasive surgeries, robotic surgeries, and other tissue treatment processes.

Problems Solved

The technology solves the problem of imprecise tissue treatment motion during surgical procedures, leading to better outcomes and reduced risks for patients.

Benefits

The benefits of this technology include improved precision, accuracy, and control during tissue treatment, ultimately enhancing the overall effectiveness of surgical procedures.

Potential Commercial Applications

The technology has potential commercial applications in the medical device industry, specifically for companies manufacturing surgical instruments and tools.

Possible Prior Art

One possible prior art could be robotic surgical systems that offer some level of motion control during procedures, but may not specifically focus on tissue treatment motion control.

Unanswered Questions

How does this technology compare to existing motion control systems in surgical instruments?

The article does not provide a direct comparison between this technology and existing motion control systems in surgical instruments.

What are the specific surgical procedures where this technology can have the most significant impact?

The article does not specify the specific surgical procedures where this technology can have the most significant impact.

Original Abstract Submitted

Methods, devices, and systems for controlling a tissue-treatment motion by a surgical instrument are disclosed.