Robot assisted prostate surgery using augmented reality with deformable models
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Please use this identifier to cite or link to this publication: http://hdl.handle.net/10380/3362
We present preliminary results of our work to develop an augmented display for improved visualization
of the prostate and surrounding critical anatomy for robot-assisted prostate surgery. Prostate
cancer is the second leading cause of cancer-related deaths in men in the United States. Early stage
prostate cancer is potentially cured by surgery, which can be performed in a traditional, open fashion
or laparoscopically. Recently, robot-assisted laparoscopic radical prostatectomy (RALP) using the da
Vinci surgical robot system has gained wide acceptance. Robotic systems improve surgeon dexterity
by incorporating additional degrees of freedom at the end of the tools and offer increased precision
and stability of movements. However, since the procedure is performed through small incisions, this
technique reduces free sight and tactile feedback compared to open surgery. Surgeons also lose the ability
to palpate the prostate to locate tumors and other critical structures such as neurovascular bundles
(NVB). Surgeons must rely on visual cues from the video monitor and mentally correlate them with
the underlying anatomy, often using information from medical images obtained prior to the procedure.
Further complications arise from local deformations in the prostate tissue that occurs throughout the
prostatectomy procedure due to the interaction between the surgical instruments and the prostate tissue.
Subsequently, the anatomical model generated pre-operatively will need to be updated during the procedure
to reflect this deformation. To address the clinical need for more accurate and reliable guidance,
we are developing a navigation system that provides surgeons with an augmented reality (AR) view that
fuses a pre-operative MRI model of the prostate, tumor and surrounding tissues with the da Vinci system
laparoscopic video, while compensating for non-rigid prostate tissue deformation using intra-operative
transrectal ultrasound (TRUS) imaging. The work focuses on three components: (i) Developing and
evaluating algorithm for registration of MRI and ultrasound images (2) Building and testing an augmented
reality, with 3D Slicer, Surgical Assistant Workstation (SAW) and the da Vinci surgical robotic
system. (3) Evaluate the system using a multi-modality prostate phantom.

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Categories: Deformable registration, Registration metrics
Keywords: Robotics, Augmented reality, registration
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