18558682. SURGICAL INSTRUMENTS, SYSTEMS, AND METHODS INCORPORATING ULTRASONIC AND ELECTROSURGICAL FUNCTIONALITY simplified abstract (Covidien LP)
SURGICAL INSTRUMENTS, SYSTEMS, AND METHODS INCORPORATING ULTRASONIC AND ELECTROSURGICAL FUNCTIONALITY
Organization Name
Inventor(s)
Thomas E. Drochner of Longmont CO (US)
Matthew S. Cowley of Frederick CO (US)
Kenlyn S. Bonn of Lakewood CO (US)
James R. Fagan of Erie CO (US)
Michael B. Lyons of Boulder CO (US)
David J. Van Tol of Boulder CO (US)
SURGICAL INSTRUMENTS, SYSTEMS, AND METHODS INCORPORATING ULTRASONIC AND ELECTROSURGICAL FUNCTIONALITY - A simplified explanation of the abstract
This abstract first appeared for US patent application 18558682 titled 'SURGICAL INSTRUMENTS, SYSTEMS, AND METHODS INCORPORATING ULTRASONIC AND ELECTROSURGICAL FUNCTIONALITY
Simplified Explanation:
This patent application describes a surgical system with a processor and a surgical instrument that includes an end effector assembly. The end effector assembly has an ultrasonic blade connected to an ultrasonic transducer for receiving ultrasonic energy, along with a jaw member that can pivot to clamp tissue. The system can operate in ultrasonic, bipolar, and monopolar states based on the determined use profile by the processor.
- The surgical system includes a processor and a surgical instrument with an end effector assembly.
- The end effector assembly consists of an ultrasonic blade connected to an ultrasonic transducer and a jaw member for tissue clamping.
- The system can operate in ultrasonic, bipolar, and monopolar states.
- The processor determines the use profile of the surgical instrument and initiates the appropriate state accordingly.
Key Features and Innovation:
- Integration of ultrasonic blade and transducer for precise tissue cutting.
- Versatility in operating modes (ultrasonic, bipolar, monopolar) for different surgical needs.
- Automated determination of use profile for efficient operation.
- Enhanced precision and control during surgical procedures.
- Potential for improved patient outcomes and reduced surgical complications.
Potential Applications:
- General surgery
- Gynecological procedures
- Urological surgeries
- Ophthalmic surgeries
- Orthopedic procedures
Problems Solved:
- Enhanced precision in tissue cutting
- Reduced risk of collateral damage
- Improved control during surgical procedures
- Efficient energy delivery for various tissue types
- Adaptability to different surgical requirements
Benefits:
- Increased surgical precision
- Reduced surgical time
- Minimized tissue trauma
- Enhanced patient safety
- Improved surgical outcomes
Commercial Applications:
Potential commercial applications include:
- Medical device manufacturing
- Surgical instrument development
- Healthcare facilities and hospitals
- Research institutions
Questions about Surgical System: 1. How does the surgical system determine the appropriate use profile for the surgical instrument? 2. What are the specific advantages of operating the system in ultrasonic, bipolar, and monopolar states?
Frequently Updated Research: Ongoing research in the field of surgical instruments and energy-based devices may lead to further advancements in the design and functionality of similar systems. Researchers are continuously exploring ways to improve surgical outcomes and patient safety through innovative technologies.
Original Abstract Submitted
A surgical system includes a processor and a surgical instrument having an end effector assembly. The end effector assembly includes an ultrasonic blade operably coupled to an ultrasonic transducer for receiving ultrasonic energy produced by the ultrasonic transducer, and a jaw member pivotable relative to the ultrasonic blade between an open position and a closed position for clamping tissue between the ultrasonic blade and the jaw member. The end effector assembly is configured to be activated in an ultrasonic state, in a bipolar state, and in a monopolar state. The processor is configured to determine a use profile of the surgical instrument upon activation of the surgical instrument and, based on the determined use profile, to initiate at least one of the ultrasonic state, the bipolar state, or the monopolar state.
- Covidien LP
- Thomas E. Drochner of Longmont CO (US)
- Matthew S. Cowley of Frederick CO (US)
- Kenlyn S. Bonn of Lakewood CO (US)
- James R. Fagan of Erie CO (US)
- Michael B. Lyons of Boulder CO (US)
- David J. Van Tol of Boulder CO (US)
- A61B17/32
- A61B18/14
- A61B18/16
- A61B17/00
- A61B17/28
- A61B17/285
- A61B18/00
- A61B18/12
- CPC A61B17/320092