Robotic techniques for minimally invasive tumor localization

Abstract

The challenges imposed by Minimally Invasive Surgery (MIS) have been the subject of significant research in the last decade. In the case of cancer surgery, a significant limitation is the inability to effectively palpate the target tissue to localize tumor nodules for treatment or removal. Current clinical technologies are still limited and tumor localization efforts often result in the need to increase the size of the incision to allow finger access for direct palpation. New methods of MIS tumor localization under investigation involve restoring the sense of touch, or haptic feedback. The two most commonly investigated modes of haptic perception include kinesthetic and tactile sensing, each with its own advantages and disadvantages. Work in this area includes the development of customized instruments with embedded sensors that aim to solve the problem of limited haptic feedback in MIS. This chapter provides a review of the work to date in the use of kinesthetic and tactile sensing information in MIS for tissue palpation, with the goal of highlighting the benefits and limitations of each mode when used to locate hidden tumors during MIS. © 2011 Springer Science+Business Media, LLC.