Waseda Bioinstrumentation system WB-2R as a wearable tool for an objective analysis of surgeon's performance

There has been an ever increasing amount of research and development of technologies and methods to improve the safety of surgery such as Minimally Invasive Surgery (MIS). While these new technologies and methods have many advantages for patients, they often require surgeons to undergo long and difficult training. In this context, several training methods and metrics have been proposed, both to improve the surgeon's abilities and also to assess his/her skills. Our research is aimed at using WB-2R (Waseda Bioinstrumentation system NO.2 Refined), to investigate and analyze a surgeon's movements and performance. In this paper, we analyze the effects of two days of laparoscopic training on a novice subject. By using the Inertial Measurement Unit (IMU) of WB-2R it is possible to evaluate the novice's ability and improvement to handle surgical instruments and perform some knots of basic C-Loop suture. The preliminary analysis of the data acquired during the experiments (the mean and standard deviation of acceleration; 95% cumulated distribution of acceleration; the path length of the movements of hands and the execution time completing the knots) clearly shows the novice's improvements after the training. WB-2R system could provide additional information improving to help assess the experience and performance of surgeons, and to show the effectiveness of laparoscopic training. These analyses and modeling are an important step to realize a better training/evaluation system for surgeons during MIS, to understand better how the surgery is performed.

[1]  Shahram Payandeh,et al.  Task and Motion Analyses in Endoscopic Surgery , 1996, Dynamic Systems and Control.

[2]  J Rosen,et al.  Objective laparoscopic skills assessments of surgical residents using Hidden Markov Models based on haptic information and tool/tissue interactions. , 2001, Studies in health technology and informatics.

[3]  Shahram Payandeh,et al.  On defining metrics for assessing laparoscopic surgical skills in a virtual training environment. , 2002, Studies in health technology and informatics.

[4]  Stephane Cotin,et al.  Metrics for Laparoscopic Skills Trainers: The Weakest Link! , 2002, MICCAI.

[5]  Leonid Zhukov,et al.  Measurements of the level of surgical expertise using flight path analysis from da Vinci robotic surgical system. , 2003, Studies in health technology and informatics.

[6]  C. Sokollik,et al.  New model for skills assessment and training progress in minimally invasive surgery , 2004, Surgical Endoscopy And Other Interventional Techniques.

[7]  A. Darzi,et al.  Motion analysis in the training and assessment of minimally invasive surgery , 2003, Minimally invasive therapy & allied technologies : MITAT : official journal of the Society for Minimally Invasive Therapy.

[8]  J. Shah,et al.  The impact of inherent and environmental factors on surgical performance in laparoscopy: a review , 2003, Minimally invasive therapy & allied technologies : MITAT : official journal of the Society for Minimally Invasive Therapy.

[9]  A. Duffy,et al.  Construct validity for the LAPSIM laparoscopic surgical simulator , 2005, Surgical Endoscopy And Other Interventional Techniques.

[10]  H. Xina,et al.  Laparoscopic surgery , perceptual limitations and force : A review , 2006 .

[11]  Paolo Dario,et al.  Development of a Bioinstrumentation System in the Interaction between a Human and a Robot , 2006, 2006 IEEE/RSJ International Conference on Intelligent Robots and Systems.

[12]  M. Schijven,et al.  Construct validity of the LapSim: Can the LapSim virtual reality simulator distinguish between novices and experts? , 2007, Surgical Endoscopy.

[13]  P. Andreatta,et al.  Construct validity of the LapSim laparoscopic surgical simulator. , 2006, American journal of surgery.

[14]  A. Takanishi,et al.  On the development of the bioinstrumentation system WB-1R for the evaluation of human-robot interaction - Head and hands motion capture systems - , 2007, 2007 IEEE/ASME international conference on advanced intelligent mechatronics.

[15]  Paolo Dario,et al.  Using the Waseda Bioinstrumentation System WB-1R to analyze Surgeon’s performance during laparoscopy - towards the development of a global performance index - , 2007, 2007 IEEE/RSJ International Conference on Intelligent Robots and Systems.

[16]  Atsuo Takanishi,et al.  Waseda Bioinstrumentation system WB-2 - the new inertial measurement unit for the new motion caption system - , 2007, 2007 IEEE International Conference on Robotics and Biomimetics (ROBIO).

[17]  Hiroshi Iseki,et al.  Development of the Ultra-Miniaturized Inertial Measurement Unit WB3 for Objective Skill Analysis and Assessment in Neurosurgery: Preliminary Results , 2009, MICCAI.