Evaluating the Role of Vision and Force Feedback in Minimally Invasive Surgery: New Automated Laparoscopic Grasper and A Case Study

Performing complex tasks in Minimally Invasive Surgery (MIS) is demanding due to a disturbed hand-eye co-ordination, the use of non-ergonomic instruments with limited degrees of freedom (DOFs) and a lack of force feedback. Robotic telemanipulatory systems enhance surgical dexterity by providing up to 7 DOFs. They allow the surgeon to operate in an ergonomically favorable position with more intuitive manipulation of the instruments. Commercially available robotic systems, however, are very bulky, expensive and do not provide any force feedback. The aim of our study was to develop a simple mechanical manipulator for MIS. When manipulating the handle of the device, the surgeon’s wrist and grasping movements are directly transmitted to the deflectable instrument tip in 7 DOFs. The manipulator consists of a parallelogram mechanism with steel wires. First phantom experience indicated that the system functions properly. The MIM provides some force feedback improving safety. A set of MIMs seems to be an economical and compact alternative for robotic systems.

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Force Feedback Plays a Significant Role in Minimally Invasive Surgery

Annals of Surgery ◽

10.1097/01.sla.0000149301.60553.1e ◽

2005 ◽

Vol 241 (1) ◽

pp. 102-109 ◽

Cited By ~ 191

Author(s):

Gregory Tholey ◽

Jaydev P. Desai ◽

Andres E. Castellanos

Keyword(s):

Minimally Invasive Surgery ◽

Minimally Invasive ◽

Significant Role ◽

Invasive Surgery ◽

Force Feedback

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Real-Time 2D Surface Profile Mapping of Biological Tissue with Force Feedback in Robot-Assisted Minimally Invasive Surgery

Applied Mechanics and Materials ◽

10.4028/www.scientific.net/amm.798.319 ◽

2015 ◽

Vol 798 ◽

pp. 319-323

Author(s):

Ali Reza Hassan Beiglou ◽

Javad Dargahi

Keyword(s):

Minimally Invasive Surgery ◽

Minimally Invasive ◽

Real Time ◽

Invasive Surgery ◽

Strain Gauge ◽

Force Feedback ◽

Surface Profile ◽

Robot Assisted ◽

Contact Points ◽

Force Signal

It has been more than 20 years that robot-assisted minimally invasive surgery (RMIS) has brought remarkable accuracy and dexterity for surgeons along with the decreasing trauma for the patients. In this paper a novel method of the tissue’s surface profile mapping is proposed. The tissue surface profile plays an important role for material identification during RMIS. It is shown how by integrating the force feedback into robot controller the surface profile of the tissue can be obtained with force feedback scanning. The experiment setup includes a 5 degree of freedoms (DOFs) robot which is equipped with a strain-gauge ball caster as the force feedback. Robot joint encoders signals and the captured force signal of the strain-gauge are transferred to developed surface transformation algorithm (STA). The real-time geometrical transformation process is triggered with force signal to identify contact points between the ball caster and the artificial tissue. The 2D surface profile of tissue will be mapped based on these contact points. Real-time capability of the proposed system is evaluated experimentally for the artifical tissues in a designed test rig.

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