Proceedings ArticleDOI
The Black Falcon: a teleoperated surgical instrument for minimally invasive surgery
Akhil J. Madhani,Gunter Niemeyer,J.K. Salisbury +2 more
- Vol. 2, pp 936-944
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TLDR
The Black Falcon, an eight degree-of-freedom teleoperator slave with a dextrous wrist for minimally invasive surgery (MIS) is presented and suturing along arbitrarily oriented suture lines in animal tissue, a task essentially impossible using current instruments is demonstrated.Abstract:
This paper presents the Black Falcon, an eight degree-of-freedom teleoperator slave with a dextrous wrist for minimally invasive surgery (MIS). We show how teleoperation can address several key problems in MIS by increasing dexterity and degrees of freedom, by giving the surgeon some force feedback to feel instrument-tissue interactions and by eliminating geometric discrepancies between actual and observed tool motions. We discuss relevant design constraints, summarize the mechanism design and give data showing the quality of force reflection achieved. We demonstrate suturing along arbitrarily oriented suture lines in animal tissue, a task essentially impossible using current instruments.read more
Citations
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References
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The PHANToM Haptic Interface: A Device for Probing Virtual Objects
TL;DR: The design rationale, novel kinematics and mechanics of the PHANToM, a device which measures a user’s finger tip position and exerts a precisely controlled force vector on the finger tip, are discussed.
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A telerobotic assistant for laparoscopic surgery
Russell H. Taylor,Janez Funda,B. Eldridge,S. Gomory,K.G. Gruben,David Arthur Larose,Mark A. Talamini,Louis R. Kavoussi,James H. Anderson +8 more
TL;DR: A new generation of "intelligent" surgical systems that can work cooperatively with a human surgeon to off-load routine tasks, reduce the number of people needed in the operating room, and provide new capabilities that complement the surgeon's own skills are developed.
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TL;DR: Three projects to evaluate and improve the human interface in laparoscopic surgery, or minimally invasive surgery of the abdomen, are described: measurement of movement trajectories under different visual conditions to determine the effect of viewing geometry, development of virtual environments for training, and the development of haptic interfaces and control algorithms for teleoperative surgery.
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Antonio Garcia-Ruiz,Nicholas G. Smedira,Floyd D. Loop,Joseph F. Hahn,Jeffrey H. Miller,Charles P. Steiner,Michel Gagner +6 more
TL;DR: The use of robotic enhancement technology leads to an efficient performance of sutured coronary artery bypass anastomoses in a plastic model that enhances dexterity, precision, and reduces surgeon's fatigue while preserving the quality of hand suturing.