Image-guided simulation of tissue deformation using a mechanical model on a surgical application |
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| Authors: | Toan B. Nguyen Albert Y. Huang Vid Fikfak Brian J. Dunkin |
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| Affiliation: | 1. Department of Computer Science, University of Houston, Houston, TX, USA;2. Methodist Institute for Technology, Innovation and Education – Houston Methodist Hospital, Houston, TX, USA;3. Methodist Institute for Technology, Innovation and Education – Houston Methodist Hospital, Houston, TX, USA |
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| Abstract: | ![]()
This paper presents a method for localizing the position of a liver and a tumor within the tissue during a minimally invasive liver operation. From pre-operative CT scans, the liver volume and its internal structures are segmented using image-processing techniques. Based on these segmentations, a three-dimensional mechanical model is built to compute the liver volume and internal structure displacement under boundary conditions such as external forces from the surgical instrument. This can help the surgeon understand the motion of internal structures when manipulating the liver. To validate our method, an experiment on a porcine liver explant was performed to assess the difference between actual tissue motion and the mechanical model. |
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| Keywords: | Image segmentation mechanical model simulation hepatic surgery tissue model validation surgical planning |
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