Segmentation of hepatic vessels from MRI images for planning of electroporation-based treatments in the liver

Segmentation of hepatic vessels from MRI images for planning of electroporation-based treatments in the liver

Introduction. Electroporation-based treatments rely on increasing the permeability of the cell membrane by high voltage electric pulses delivered to tissue via electrodes. To ensure that the whole tumor is covered by the sufficiently high electric field, accurate numerical models are built based on...

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Bibliographic Details
Published in:Radiology and oncology Vol. 48; no. 3; pp. 267 - 281
Main Authors: Marcan, Marija, Pavliha, Denis, Music, Maja Marolt, Fuckan, Igor, Magjarevic, Ratko, Miklavcic, Damijan
Format: Journal Article
Language:English
Published: Poland De Gruyter Open 01-09-2014
De Gruyter Poland
Versita, Warsaw
Sciendo
Subjects:
Blood vessels
Electric fields
electrochemotherapy
hepatic vessel segmentation
Liver
Medical treatment
MRI of liver
NMR
non-invasive tumor treatments
non-thermal irreversible electroporation
Nuclear magnetic resonance
treatment planning
Tumors
electrochemotherapy
hepatic vessel segmentation
treatment planning
non-thermal irreversible electroporation
MRI of liver
non-invasive tumor treatments
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Summary:Introduction. Electroporation-based treatments rely on increasing the permeability of the cell membrane by high voltage electric pulses delivered to tissue via electrodes. To ensure that the whole tumor is covered by the sufficiently high electric field, accurate numerical models are built based on individual patient geometry. For the purpose of reconstruction of hepatic vessels from MRI images we searched for an optimal segmentation method that would meet the following initial criteria: identify major hepatic vessels, be robust and work with minimal user input. Materials and methods. We tested the approaches based on vessel enhancement filtering, thresholding, and their combination in local thresholding. The methods were evaluated on a phantom and clinical data. Results. Results show that thresholding based on variance minimization provides less error than the one based on entropy maximization. Best results were achieved by performing local thresholding of the original de-biased image in the regions of interest which were determined through previous vessel-enhancement filtering. In evaluation on clinical cases the proposed method scored in average sensitivity of 93.68%, average symmetric surface distance of 0.89 mm and Hausdorff distance of 4.04 mm. Conclusions. The proposed method to segment hepatic vessels from MRI images based on local thresholding meets all the initial criteria set at the beginning of the study and necessary to be used in treatment planning of electroporation- based treatments: it identifies the major vessels, provides results with consistent accuracy and works completely automatically. Whether the achieved accuracy is acceptable or not for treatment planning models remains to be verified through numerical modeling of effects of the segmentation error on the distribution of the electric field.
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Disclosure: No potential conflicts of interest were disclosed.
ISSN:1318-2099
1581-3207
1581-3207
0485-893X
DOI:10.2478/raon-2014-0022