MASTER CONTROLLER DEVICE COMPRISING A WEARABLE PORTION FOR ROBOTIC SURGICAL AND MICROSURGICAL TELEOPERATION, AND RELATED SYSTEM

Organization Name

MEDICAL MICROINSTRUMENTS, INC.

Inventor(s)

Federico Montagnani of Pisa (IT)

Nicola Pineschi of Pisa (IT)

Emanuele Ruffaldi of Pisa (IT)

Andrea Pratesi of Pisa (IT)

Massimiliano Simi of Pisa (IT)

Alexander Richard Joseph of Cambridge (GB)

Andrew Duncan Pidgeon of Cambridge (GB)

Samuel John Doyle of Cambridge (GB)

Benjamin David Hopkins of Cambridge (GB)

Niven Curtis-woodcock of Cambridge (GB)

Shadi Bavar of Cambridge (GB)

MASTER CONTROLLER DEVICE COMPRISING A WEARABLE PORTION FOR ROBOTIC SURGICAL AND MICROSURGICAL TELEOPERATION, AND RELATED SYSTEM - A simplified explanation of the abstract

This abstract first appeared for US patent application 18443135 titled 'MASTER CONTROLLER DEVICE COMPRISING A WEARABLE PORTION FOR ROBOTIC SURGICAL AND MICROSURGICAL TELEOPERATION, AND RELATED SYSTEM

Simplified Explanation: The abstract describes a master controller device for a robotic system used in medical or surgical teleoperation. This device includes wearable elements for the fingers of a surgeon and a control gripper to manipulate a surgical instrument. The device also has internal orientation capabilities to reorient the wearable elements.

• The master controller device is designed for medical or surgical teleoperation.
• It includes wearable elements for the fingers of a surgeon.
• A control gripper is used to manipulate a surgical instrument.
• The device has internal orientation capabilities to reorient the wearable elements.
• The device allows for precise control and manipulation of surgical instruments during procedures.

Potential Applications: 1. Minimally invasive surgeries 2. Robotic-assisted surgeries 3. Telemedicine applications 4. Training simulations for medical professionals

Problems Solved: 1. Enhanced precision and control during surgical procedures 2. Improved ergonomics for surgeons 3. Facilitates remote surgeries and teleoperation 4. Enables training and skill development in a simulated environment

Benefits: 1. Increased accuracy in surgical procedures 2. Reduced fatigue for surgeons 3. Enables access to specialized medical expertise remotely 4. Enhances training opportunities for medical professionals

Commercial Applications: Title: "Innovative Master Controller Device for Surgical Teleoperation" This technology can be utilized in: 1. Hospitals and surgical centers 2. Medical device companies 3. Telemedicine platforms 4. Research institutions developing robotic surgery technologies

Questions about Master Controller Device for Surgical Teleoperation: 1. How does the master controller device improve the precision of surgical procedures? 2. What are the potential cost-saving benefits of using this technology in healthcare settings?

Frequently Updated Research: Stay updated on advancements in robotic surgery technologies and teleoperation systems to understand the latest trends and innovations in the field.

Original Abstract Submitted

An unconstrained master controller device for a robotic system for medical or surgical teleoperation includes at least one wearable portion having a pair of wearable elements for the fingers of a surgeon and a control gripper for controlling at least one degree of freedom of a slave surgical instrument associable with the master controller device. The master controller device includes at least one internal degree of freedom of orientation which allows reorienting at least one wearable element of the pair.