Problem Solved
Traditional laparoscopic instruments often lack the dexterity and precision required for complex surgical procedures. These limitations can lead to increased surgery times and potential complications. Additionally, existing solutions can be costly and not user-friendly for surgeons.
Core Features
This invention introduces an agile, multi-degree laparoscopic hand instrument designed to enhance surgical precision. It comprises three main modules: a hand controller, a motion transmitter, and an end effector. The hand controller allows for independent rotation and precise control, while the motion transmitter and end effector enable intricate movements.
Inventive Step
The novel aspect of this invention lies in its multi-degree freedom, allowing for independent and simultaneous movement of grippers and pulleys. This is achieved through a unique combination of connecting rods and loop wires, enabling precise control and flexibility not found in existing instruments.
Benefits
The instrument is surgeon-friendly and cost-effective, offering enhanced control and precision during laparoscopic surgeries. It reduces the physical strain on surgeons and minimizes the risk of errors, potentially improving patient outcomes.
Broader Impact
This invention could revolutionize the field of minimally invasive surgery by making advanced surgical techniques more accessible and affordable. It promotes better healthcare outcomes and could lead to widespread adoption in hospitals, improving surgical efficiency and reducing healthcare costs.