Disocclusion-based 2D-3D registration for aortic interventions

Stefanie Demirci; Maximilian Baust; Oliver Kutter; Frode Manstad-Hulaas; Hans Henning Eckstein; Nassir Navab

doi:10.1016/j.compbiomed.2013.01.012

Disocclusion-based 2D-3D registration for aortic interventions

Stefanie Demirci
, Maximilian Baust
, Oliver Kutter
, Frode Manstad-Hulaas
, Hans Henning Eckstein
, Nassir Navab

Technical University of Munich
Norwegian University of Science and Technology
St. Olavs Hospital

Research output: Contribution to journal › Article › peer-review

24 Scopus citations

Abstract

Occlusions introduced by medical instruments affect the accuracy and robustness of existing intensity-based medical image registration algorithms. In this paper, we present disocclusion-based 2D-3D registration handling occlusion and dissimilarity during registration. Therefore, we introduce two disocclusion techniques, Spline Interpolation and Stent-editing, and two robust similarity measures, Huber and Tukey Gradient Correlation. Our techniques are validated on synthetic and real interventional data and compared with well-known approaches. Results prove that an integration of disocclusion into the registration procedure yield higher accuracy and robustness. It is also shown that the robust measures have different effects depending on the type of occluding structure.

Original language	English
Pages (from-to)	312-322
Number of pages	11
Journal	Computers in Biology and Medicine
Volume	43
Issue number	4
DOIs	https://doi.org/10.1016/j.compbiomed.2013.01.012
State	Published - 1 May 2013

Keywords

2D-3D registration
Disocclusion
Image dissimilarity
Medical image registration
Robust similarity measures

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10.1016/j.compbiomed.2013.01.012

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title = "Disocclusion-based 2D-3D registration for aortic interventions",

abstract = "Occlusions introduced by medical instruments affect the accuracy and robustness of existing intensity-based medical image registration algorithms. In this paper, we present disocclusion-based 2D-3D registration handling occlusion and dissimilarity during registration. Therefore, we introduce two disocclusion techniques, Spline Interpolation and Stent-editing, and two robust similarity measures, Huber and Tukey Gradient Correlation. Our techniques are validated on synthetic and real interventional data and compared with well-known approaches. Results prove that an integration of disocclusion into the registration procedure yield higher accuracy and robustness. It is also shown that the robust measures have different effects depending on the type of occluding structure.",

keywords = "2D-3D registration, Disocclusion, Image dissimilarity, Medical image registration, Robust similarity measures",

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AU - Demirci, Stefanie

AU - Baust, Maximilian

AU - Kutter, Oliver

AU - Manstad-Hulaas, Frode

AU - Eckstein, Hans Henning

AU - Navab, Nassir

PY - 2013/5/1

Y1 - 2013/5/1

N2 - Occlusions introduced by medical instruments affect the accuracy and robustness of existing intensity-based medical image registration algorithms. In this paper, we present disocclusion-based 2D-3D registration handling occlusion and dissimilarity during registration. Therefore, we introduce two disocclusion techniques, Spline Interpolation and Stent-editing, and two robust similarity measures, Huber and Tukey Gradient Correlation. Our techniques are validated on synthetic and real interventional data and compared with well-known approaches. Results prove that an integration of disocclusion into the registration procedure yield higher accuracy and robustness. It is also shown that the robust measures have different effects depending on the type of occluding structure.

AB - Occlusions introduced by medical instruments affect the accuracy and robustness of existing intensity-based medical image registration algorithms. In this paper, we present disocclusion-based 2D-3D registration handling occlusion and dissimilarity during registration. Therefore, we introduce two disocclusion techniques, Spline Interpolation and Stent-editing, and two robust similarity measures, Huber and Tukey Gradient Correlation. Our techniques are validated on synthetic and real interventional data and compared with well-known approaches. Results prove that an integration of disocclusion into the registration procedure yield higher accuracy and robustness. It is also shown that the robust measures have different effects depending on the type of occluding structure.

KW - 2D-3D registration

KW - Disocclusion

KW - Image dissimilarity

KW - Medical image registration

KW - Robust similarity measures

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JO - Computers in Biology and Medicine

JF - Computers in Biology and Medicine

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ER -

Disocclusion-based 2D-3D registration for aortic interventions

Abstract

Keywords

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