ADAPTIVE FIRING CONTROL ALGORITHM BASED ON MECHANICAL ACTUATION OF USER CONTROLS

Organization Name

Cilag GmbH International

Inventor(s)

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

Shane R. Adams of Lebanon OH (US)

Taylor W. Aronhalt of Loveland OH (US)

Nicholas J. Ross of Franklin OH (US)

Matthew D. Cowperthwait of Cincinnati OH (US)

ADAPTIVE FIRING CONTROL ALGORITHM BASED ON MECHANICAL ACTUATION OF USER CONTROLS - A simplified explanation of the abstract

This abstract first appeared for US patent application 17957933 titled 'ADAPTIVE FIRING CONTROL ALGORITHM BASED ON MECHANICAL ACTUATION OF USER CONTROLS

Simplified Explanation

The surgical instrument described in the patent application includes an end effector that can be opened or clamped, a firing member that moves during a firing stroke, a manually-driveable closure system, a motor-powered firing system, and a control system. The motor-powered firing system drives the firing member through the firing stroke, while the control system detects the end effector reaching the clamped state, the actuation of the motor-powered firing system, sets a firing motion parameter based on elapsed time, and drives the firing member through the firing stroke using the firing motion parameter.

• End effector configurable between open and clamped states
• Firing member movable from unfired to fired position
• Manually-driveable closure system
• Motor-powered firing system
• Control system for detecting end effector state and driving firing member

Potential Applications

This technology could be used in various surgical procedures where precise clamping and firing actions are required, such as in minimally invasive surgeries or robotic-assisted surgeries.

Problems Solved

This technology helps in achieving more accurate and controlled clamping and firing actions during surgical procedures, reducing the risk of errors or complications.

Benefits

- Improved precision in clamping and firing actions - Enhanced control over surgical instruments - Potentially reduced risk of surgical complications

Potential Commercial Applications

The technology could be utilized by medical device companies producing surgical instruments for various medical specialties, including general surgery, gynecology, and urology.

Possible Prior Art

One possible prior art could be traditional surgical instruments that require manual clamping and firing actions, which may not offer the same level of precision and control as the technology described in the patent application.

Unanswered Questions

How does this technology compare to existing surgical instruments in terms of cost-effectiveness?

The article does not provide information on the cost-effectiveness of implementing this technology compared to traditional surgical instruments. This aspect could be crucial for healthcare providers and medical facilities considering adopting this innovation.

What are the potential regulatory challenges associated with introducing this technology into the market?

The article does not address the regulatory challenges that may arise when bringing this technology to market. Understanding the regulatory landscape and requirements could be essential for companies looking to commercialize this innovation.

Original Abstract Submitted

A surgical instrument is disclosed including an end effector configurable between an open state and a clamped state, a firing member movable from an unfired position toward a fired position during a firing stroke, a manually-driveable closure system, a motor-powered firing system, and a control system. The motor-powered firing system is configured to drive the firing member through the firing stroke. The control system is configured to detect, at a first time point, the end effector reaching the clamped state with the manually-driveable closure system, detect, at a second time point, the actuation of the motor-powered firing system, set a firing motion parameter of the motor-powered firing system based on an elapsed time from the first time point to the second time point, and drive the firing member through the firing stroke with the motor-powered firing system using the firing motion parameter.