SUPIR: Surface Uncertainty-Penalized, Non-rigid Image Registration for Pelvic CT Imaging

Cheng Zhang; Gary E Christensen; Sebastian Kurtek; Anuj Srivastava; Martin J Murphy; Elisabeth Weiss; Erwei Bai; Jeffrey F Williamson

doi:10.1007/978-3-642-31340-0_25

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SUPIR: Surface Uncertainty-Penalized, Non-rigid Image Registration for Pelvic CT Imaging

Book chapter

Peer reviewed

SUPIR: Surface Uncertainty-Penalized, Non-rigid Image Registration for Pelvic CT Imaging

Cheng Zhang, Gary E Christensen, Sebastian Kurtek, Anuj Srivastava, Martin J Murphy, Elisabeth Weiss, Erwei Bai and Jeffrey F Williamson

Biomedical Image Registration, pp.236-245

Lecture Notes in Computer Science, Springer Berlin Heidelberg

2012

DOI: 10.1007/978-3-642-31340-0_25

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Abstract

Intensity-driven image registration does not always produce satisfactory pointwise correspondences in regions of low soft-tissue contrast characteristic of pelvic computed tomography (CT) imaging. Additional information such as manually segmented organ surfaces can be combined with intensity information to improve registration. However, this approach is sensitive to non-negligible surface segmentation errors (delineation errors) due to the relative poor soft-tissue contrast supported by CT. This paper presents an image registration algorithm that mitigates the impact of delineation errors by weighting each surface element by its segmentation uncertainty. This weighting ensures that portions of the surface that are specified accurately are used to guide the registration while portions of the surface that are uncertain are ignored. In our proof-of-principle validation, Monte Carlo simulations based on simple 3D phantoms demonstrate the strengths and weaknesses of the proposed method. These experiments show that registration performance can be improved using surface uncertainty in certain circumstances but not in others. Results are presented for situations when intensity only registration performs best, when intensity plus equally weighted surface registration performs best, and when intensity plus uncertainty weighted surface registration performs best. The algorithm has been applied to register CBCT and FBCT prostate images where the uncertainty of the prostate surface segmentation was estimated using contours drawn by five experts.

Boundary Uncertainty

CBCT Image

Image Registration

Surface Registration

Surface Segmentation

Details

Title: Subtitle: SUPIR: Surface Uncertainty-Penalized, Non-rigid Image Registration for Pelvic CT Imaging
Creators: Cheng Zhang - University of Iowa
Gary E Christensen - University of Iowa
Sebastian Kurtek - Florida State University
Anuj Srivastava - Florida State University
Martin J Murphy - Virginia Commonwealth University
Elisabeth Weiss - Virginia Commonwealth University
Erwei Bai - University of Iowa
Jeffrey F Williamson - Virginia Commonwealth University
Resource Type: Book chapter
Publication Details: Biomedical Image Registration, pp.236-245
Publisher: Springer Berlin Heidelberg; Berlin, Heidelberg
Series: Lecture Notes in Computer Science
DOI: 10.1007/978-3-642-31340-0_25
eISSN: 1611-3349
ISSN: 0302-9743
Language: English
Date published: 2012
Academic Unit: Radiation Research Laboratory; Electrical and Computer Engineering; Radiation Oncology; The Iowa Institute for Biomedical Imaging; Advanced Pulmonary Physiomic Imaging Laboratory; Holden Comprehensive Cancer Center
Record Identifier: 9984197299002771

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