Objective skill analysis and assessment in neurosurgery by using an ultra-miniaturized inertial measurement unit WB-3 — Pilot tests —

In recent years there has been an ever increasing amount of research and development of technologies and methods to improve the quality and the performance of advanced surgery. In several fields, such as laparoscopy, various training methods and metrics have been proposed, both to improve the surgeon's abilities and also to assess her/his skills. For neurosurgery, however, the extremely small movements and target operating space involved have prevented until now the development of similar methodologies and systems. In this paper we present the development of an ultra-miniaturized Inertial Measurement Unit (IMU) and its application for neurosurgery skill assessment in a simple pick and place scenario. This analysis is a preliminary yet fundamental step to realize a better training/evaluation system for neurosurgeons, and to objectively evaluate and understand how the neurosurgery is performed.

[1]  W. T. Latt,et al.  Bandlimited Multiple Fourier Linear Combiner for Real-time Tremor Compensation , 2007, 2007 29th Annual International Conference of the IEEE Engineering in Medicine and Biology Society.

[2]  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.

[3]  J. A. Cohen,et al.  The effects of practice and instruction on speed and accuracy during resident acquisition of simulated laparoscopic skills. , 2001, Current surgery.

[4]  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).

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