18570510. SURGICAL CUTTING INSTRUMENT, ROTATIONAL JOINT AND METHOD, PARTICULARLY FOR ROBOTIC SURGERY AND/OR MICRO-SURGERY simplified abstract (MEDICAL MICROINSTRUMENTS, INC.)
SURGICAL CUTTING INSTRUMENT, ROTATIONAL JOINT AND METHOD, PARTICULARLY FOR ROBOTIC SURGERY AND/OR MICRO-SURGERY
Organization Name
MEDICAL MICROINSTRUMENTS, INC.
Inventor(s)
Massimiliano Simi of Pisa (IT)
SURGICAL CUTTING INSTRUMENT, ROTATIONAL JOINT AND METHOD, PARTICULARLY FOR ROBOTIC SURGERY AND/OR MICRO-SURGERY - A simplified explanation of the abstract
This abstract first appeared for US patent application 18570510 titled 'SURGICAL CUTTING INSTRUMENT, ROTATIONAL JOINT AND METHOD, PARTICULARLY FOR ROBOTIC SURGERY AND/OR MICRO-SURGERY
Simplified Explanation:
The surgical instrument described in the patent application consists of an articulated end-effector with two tips that can open and close, allowing for precise cutting and manipulation during surgery.
- The end-effector includes a support structure, first and second tips with elongated bodies, and a common rotation axis for articulation.
- The first tip has a blade portion with a cutting edge, while the second tip has a counter-blade portion that bends the blade portion when in contact.
- The support structure, tips, and roots are all interconnected, providing stability and control during surgical procedures.
Key Features and Innovation:
- Articulated end-effector design for precise cutting and manipulation.
- Blade and counter-blade portions for efficient cutting and bending.
- Stable support structure for control and accuracy during surgery.
Potential Applications:
The technology can be used in various surgical procedures, including minimally invasive surgeries, laparoscopic procedures, and robotic-assisted surgeries.
Problems Solved:
The technology addresses the need for precise cutting and manipulation in surgical procedures, improving accuracy and efficiency in the operating room.
Benefits:
- Enhanced precision and control during surgery.
- Improved efficiency and accuracy in cutting and manipulation.
- Potential for reduced tissue damage and faster recovery times for patients.
Commercial Applications:
The technology has potential commercial applications in the medical device industry, specifically in the development of advanced surgical instruments for various surgical specialties.
Prior Art:
While no specific prior art is mentioned in the abstract, researchers can explore existing patents and publications related to articulated surgical instruments and end-effectors for further information.
Frequently Updated Research:
Researchers and developers in the medical device industry are constantly working on advancements in surgical instruments and tools, including articulated end-effectors for improved surgical outcomes.
Questions about Surgical Instrument Technology:
1. What are the key advantages of using an articulated end-effector in surgical procedures? 2. How does the design of the support structure contribute to the stability and control of the surgical instrument?
Original Abstract Submitted
A surgical instrument includes an articulated end-effector including a support structure, first and second tips having a respective elongated body including a proximal attachment root and a distal free end. The first and second roots are axially adjacent and globally interposed with the support structure. The support structure, and first and second tips are mutually articulated in a common rotation axis defining an axial direction coincident/parallel to the common rotation axis, defining a relative degree of freedom of opening/closing between the first and second tips. The first tip body includes a blade portion with a cutting edge rotating with the first free end. The second tip includes a counter-blade portion rotating with the second free end. The counter-blade portion abuts the cutting edge, elastically axially bending the blade portion. The first and second roots each directly and intimately contact the support structure.
