Automatic and efficient MRI-US segmentations for improving intraoperative image fusion in image-guided neurosurgery

Automatic and efficient MRI-US segmentations for improving intraoperative image fusion in image-guided neurosurgery

Knowledge of the exact tumor location and structures at risk in its vicinity are crucial for neurosurgical interventions. Neuronavigation systems support navigation within the patient's brain, based on preoperative MRI (preMRI). However, increasing tissue deformation during the course of tumor...

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Main Authors: J. Nitsch, J. Klein, P. Dammann, K. Wrede, O. Gembruch, J.H. Moltz, H. Meine, U. Sure, R. Kikinis, D. Miller
Format: Article
Language:English
Published: Elsevier 2019-01-01
Series:NeuroImage: Clinical
Online Access:http://www.sciencedirect.com/science/article/pii/S2213158219301160
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spelling doaj-c9b94c28d12a47af98966c099cec30fc2020-11-25T01:07:26ZengElsevierNeuroImage: Clinical2213-15822019-01-0122Automatic and efficient MRI-US segmentations for improving intraoperative image fusion in image-guided neurosurgeryJ. Nitsch0J. Klein1P. Dammann2K. Wrede3O. Gembruch4J.H. Moltz5H. Meine6U. Sure7R. Kikinis8D. Miller9Medical Image Computing, University of Bremen, Bremen, Germany; Fraunhofer MEVIS, Bremen, Germany; Surgical Planning Laboratory, Brigham and Women's Hospital, Harvard Medical School, Boston, USA; Corresponding author at: Fraunhofer MEVIS, Bremen; Germany and Medical Image Computing, University of Bremen, Bremen, Germany.Fraunhofer MEVIS, Bremen, GermanyDepartment of Neurosurgery, University Hospital Essen, University of Duisburg-Essen, Essen, GermanyDepartment of Neurosurgery, University Hospital Essen, University of Duisburg-Essen, Essen, GermanyDepartment of Neurosurgery, University Hospital Essen, University of Duisburg-Essen, Essen, GermanyFraunhofer MEVIS, Bremen, GermanyMedical Image Computing, University of Bremen, Bremen, Germany; Fraunhofer MEVIS, Bremen, GermanyDepartment of Neurosurgery, University Hospital Essen, University of Duisburg-Essen, Essen, GermanyMedical Image Computing, University of Bremen, Bremen, Germany; Fraunhofer MEVIS, Bremen, Germany; Surgical Planning Laboratory, Brigham and Women's Hospital, Harvard Medical School, Boston, USADepartment of Neurosurgery, University Hospital Essen, University of Duisburg-Essen, Essen, Germany; Department of Neurosurgery, University Hospital Knappschaftskrankenhaus, Bochum, GermanyKnowledge of the exact tumor location and structures at risk in its vicinity are crucial for neurosurgical interventions. Neuronavigation systems support navigation within the patient's brain, based on preoperative MRI (preMRI). However, increasing tissue deformation during the course of tumor resection reduces navigation accuracy based on preMRI. Intraoperative ultrasound (iUS) is therefore used as real-time intraoperative imaging. Registration of preMRI and iUS remains a challenge due to different or varying contrasts in iUS and preMRI. Here, we present an automatic and efficient segmentation of B-mode US images to support the registration process. The falx cerebri and the tentorium cerebelli were identified as examples for central cerebral structures and their segmentations can serve as guiding frame for multi-modal image registration. Segmentations of the falx and tentorium were performed with an average Dice coefficient of 0.74 and an average Hausdorff distance of 12.2 mm. The subsequent registration incorporates these segmentations and increases accuracy, robustness and speed of the overall registration process compared to purely intensity-based registration. For validation an expert manually located corresponding landmarks. Our approach reduces the initial mean Target Registration Error from 16.9 mm to 3.8 mm using our intensity-based registration and to 2.2 mm with our combined segmentation and registration approach. The intensity-based registration reduced the maximum initial TRE from 19.4 mm to 5.6 mm, with the approach incorporating segmentations this is reduced to 3.0 mm. Mean volumetric intensity-based registration of preMRI and iUS took 40.5 s, including segmentations 12.0 s. Keywords: IGNS, Image-guided neurosurgery, Intra-operative ultrasound, MRI, Registration, Segmentationhttp://www.sciencedirect.com/science/article/pii/S2213158219301160
collection DOAJ
language English
format Article
sources DOAJ
author J. Nitsch
J. Klein
P. Dammann
K. Wrede
O. Gembruch
J.H. Moltz
H. Meine
U. Sure
R. Kikinis
D. Miller
spellingShingle J. Nitsch
J. Klein
P. Dammann
K. Wrede
O. Gembruch
J.H. Moltz
H. Meine
U. Sure
R. Kikinis
D. Miller
Automatic and efficient MRI-US segmentations for improving intraoperative image fusion in image-guided neurosurgery
NeuroImage: Clinical
author_facet J. Nitsch
J. Klein
P. Dammann
K. Wrede
O. Gembruch
J.H. Moltz
H. Meine
U. Sure
R. Kikinis
D. Miller
author_sort J. Nitsch
title Automatic and efficient MRI-US segmentations for improving intraoperative image fusion in image-guided neurosurgery
title_short Automatic and efficient MRI-US segmentations for improving intraoperative image fusion in image-guided neurosurgery
title_full Automatic and efficient MRI-US segmentations for improving intraoperative image fusion in image-guided neurosurgery
title_fullStr Automatic and efficient MRI-US segmentations for improving intraoperative image fusion in image-guided neurosurgery
title_full_unstemmed Automatic and efficient MRI-US segmentations for improving intraoperative image fusion in image-guided neurosurgery
title_sort automatic and efficient mri-us segmentations for improving intraoperative image fusion in image-guided neurosurgery
publisher Elsevier
series NeuroImage: Clinical
issn 2213-1582
publishDate 2019-01-01
description Knowledge of the exact tumor location and structures at risk in its vicinity are crucial for neurosurgical interventions. Neuronavigation systems support navigation within the patient's brain, based on preoperative MRI (preMRI). However, increasing tissue deformation during the course of tumor resection reduces navigation accuracy based on preMRI. Intraoperative ultrasound (iUS) is therefore used as real-time intraoperative imaging. Registration of preMRI and iUS remains a challenge due to different or varying contrasts in iUS and preMRI. Here, we present an automatic and efficient segmentation of B-mode US images to support the registration process. The falx cerebri and the tentorium cerebelli were identified as examples for central cerebral structures and their segmentations can serve as guiding frame for multi-modal image registration. Segmentations of the falx and tentorium were performed with an average Dice coefficient of 0.74 and an average Hausdorff distance of 12.2 mm. The subsequent registration incorporates these segmentations and increases accuracy, robustness and speed of the overall registration process compared to purely intensity-based registration. For validation an expert manually located corresponding landmarks. Our approach reduces the initial mean Target Registration Error from 16.9 mm to 3.8 mm using our intensity-based registration and to 2.2 mm with our combined segmentation and registration approach. The intensity-based registration reduced the maximum initial TRE from 19.4 mm to 5.6 mm, with the approach incorporating segmentations this is reduced to 3.0 mm. Mean volumetric intensity-based registration of preMRI and iUS took 40.5 s, including segmentations 12.0 s. Keywords: IGNS, Image-guided neurosurgery, Intra-operative ultrasound, MRI, Registration, Segmentation
url http://www.sciencedirect.com/science/article/pii/S2213158219301160
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