Haptic Detection of Artificial Tumors by Hand and with a Tool in a MIS Environment

Minimally invasive surgery uses optical cameras and special surgical tools in order to operate from an environment one step removed from the body cavity of interest to the surgeon. It has been suggested that constraints posed by this arrangement, in particular the lack of direct haptic feedback to the surgeon, may affect the surgeon's ability to identify tissues and accurately maneuver inside the body cavity. In the present study, the ability of laypeople to detect artificial tumors of various hardness values embedded in silicone gels was assessed in a simulated MIS environment. Participants explored the gels under three conditions all with remote viewing; using the unrestricted bare finger, using a stick-like surgical tool also unrestricted, and using the surgical tool restricted by its insertion through an operating port as in MIS. Participants were significantly more accurate and more efficient at tumor detection with the finger as compared to the other methods of exploration, and they were also better at detecting harder tumors as compared to softer ones. The potential implications of these results for the role of haptic perception in minimally invasive surgery are discussed.

[1]  W. O’Brien,et al.  Young's modulus measurements of soft tissues with application to elasticity imaging , 1996, IEEE Transactions on Ultrasonics, Ferroelectrics and Frequency Control.

[2]  R. Klatzky,et al.  Hand movements: A window into haptic object recognition , 1987, Cognitive Psychology.

[3]  W. J. Peine Do Humans Sense Finger Deformation or Distributed Pressure to Detect Lumps in Soft Tissue? , 1998, Dynamic Systems and Control.

[4]  N J Soper,et al.  An analysis of the problem of biliary injury during laparoscopic cholecystectomy. , 1995, Journal of the American College of Surgeons.

[5]  Ellen J Bass,et al.  Characterizing the range of simulated prostate abnormalities palpable by digital rectal examination. , 2010, Cancer epidemiology.

[6]  R. Klatzky,et al.  Feeling textures through a probe: Effects of probe and surface geometry and exploratory factors , 2003, Perception & psychophysics.

[7]  D. Gentile,et al.  The impact of video games on training surgeons in the 21st century. , 2007, Archives of surgery.

[8]  T. Hugh New strategies to prevent laparoscopic bile duct injury--surgeons can learn from pilots. , 2002, Surgery.

[9]  R. Klatzky,et al.  Haptic identification of common objects: Effects of constraining the manual exploration process , 2004, Perception & psychophysics.

[10]  Antonio Bicchi,et al.  A sensor-based minimally invasive surgery tool for detecting tissutal elastic properties(003) 5323219 , 1996, Proceedings of IEEE International Conference on Robotics and Automation.

[11]  R. B. Ashman,et al.  Young's modulus of trabecular and cortical bone material: ultrasonic and microtensile measurements. , 1993, Journal of biomechanics.

[12]  Alfred Cuschieri,et al.  Measurements and modelling of the compliance of human and porcine organs , 2001, Medical Image Anal..

[13]  T. Krummel,et al.  Tactile feedback is present during minimally invasive surgery. , 1999, Journal of the American College of Surgeons.

[14]  R H LaMotte,et al.  Softness discrimination with a tool. , 2000, Journal of neurophysiology.

[15]  L. Way,et al.  Causes and Prevention of Laparoscopic Bile Duct Injuries: Analysis of 252 Cases From a Human Factors and Cognitive Psychology Perspective , 2003, Annals of surgery.

[16]  T. Robinson,et al.  Minimally invasive surgery , 1999, European Surgical Research.

[17]  C. K. Adams,et al.  Improved detection of human breast lesions following experimental training , 1980, Cancer.

[18]  Susan J. Lederman,et al.  Sensing and Displaying Spatially Distributed Fingertip Forces in Haptic Interfaces for Teleoperator and Virtual Environment Systems , 1999, Presence: Teleoperators & Virtual Environments.

[19]  Gong Lian-sheng,et al.  Bile duct injuries during laparoscopic cholecystectomy , 2004 .

[20]  Robert D. Howe,et al.  Remote palpation technology , 1995 .