Pose-independent surface matching for intra-operative soft-tissue marker-less registration

[Display omitted] •Marker-less approach for intra-operative soft-tissue registration.•Replaces invasive markers with surface information.•Designed for highly noisy surfaces without salient landmarks.•Evaluation performed on the liver, which is known as a difficult organ to register.•In-vitro evaluat...

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Published inMedical image analysis Vol. 18; no. 7; pp. 1101 - 1114
Main Authors dos Santos, Thiago Ramos, Seitel, Alexander, Kilgus, Thomas, Suwelack, Stefan, Wekerle, Anna-Laura, Kenngott, Hannes, Speidel, Stefanie, Schlemmer, Heinz-Peter, Meinzer, Hans-Peter, Heimann, Tobias, Maier-Hein, Lena
Format Journal Article
LanguageEnglish
Published Netherlands Elsevier B.V 01.10.2014
Subjects
Algorithms
Animals
Computer-assisted surgery
Humans
Imaging, Three-Dimensional - methods
Intra-operative registration
Intraoperative Period
Liver - diagnostic imaging
Phantoms, Imaging
Radiographic Image Interpretation, Computer-Assisted - methods
Reproducibility of Results
Sensitivity and Specificity
Surface matching
Surgery, Computer-Assisted - methods
Swine
Time-of-flight camera
Time-of-flight camera
Surface matching
Intra-operative registration
Computer-assisted surgery
Online AccessGet full text
ISSN1361-8415
1361-8423
1361-8423
DOI10.1016/j.media.2014.06.002

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Abstract [Display omitted] •Marker-less approach for intra-operative soft-tissue registration.•Replaces invasive markers with surface information.•Designed for highly noisy surfaces without salient landmarks.•Evaluation performed on the liver, which is known as a difficult organ to register.•In-vitro evaluation using a time-of-flight camera yields errors below 10mm. One of the main challenges in computer-assisted soft tissue surgery is the registration of multi-modal patient-specific data for enhancing the surgeon’s navigation capabilities by observing beyond exposed tissue surfaces. A new approach to marker-less guidance involves capturing the intra-operative patient anatomy with a range image device and doing a shape-based registration. However, as the target organ is only partially visible, typically does not provide salient features and underlies severe non-rigid deformations, surface matching in this context is extremely challenging. Furthermore, the intra-operatively acquired surface data may be subject to severe systematic errors and noise. To address these issues, we propose a new approach to establishing surface correspondences, which can be used to initialize fine surface matching algorithms in the context of intra-operative shape-based registration. Our method does not require any prior knowledge on the relative poses of the input surfaces to each other, does not rely on the detection of prominent surface features, is robust to noise and can be used for overlapping surfaces. It takes into account (1) similarity of feature descriptors, (2) compatibility of multiple correspondence pairs, as well as (3) the spatial configuration of the entire correspondence set. We evaluate the algorithm on time-of-flight (ToF) data from porcine livers in a respiratory liver motion simulator. In all our experiments the alignment computed from the established surface correspondences yields a registration error below 1cm and is thus well suited for initializing fine surface matching algorithms for intra-operative soft-tissue registration.
AbstractList One of the main challenges in computer-assisted soft tissue surgery is the registration of multi-modal patient-specific data for enhancing the surgeon's navigation capabilities by observing beyond exposed tissue surfaces. A new approach to marker-less guidance involves capturing the intra-operative patient anatomy with a range image device and doing a shape-based registration. However, as the target organ is only partially visible, typically does not provide salient features and underlies severe non-rigid deformations, surface matching in this context is extremely challenging. Furthermore, the intra-operatively acquired surface data may be subject to severe systematic errors and noise. To address these issues, we propose a new approach to establishing surface correspondences, which can be used to initialize fine surface matching algorithms in the context of intra-operative shape-based registration. Our method does not require any prior knowledge on the relative poses of the input surfaces to each other, does not rely on the detection of prominent surface features, is robust to noise and can be used for overlapping surfaces. It takes into account (1) similarity of feature descriptors, (2) compatibility of multiple correspondence pairs, as well as (3) the spatial configuration of the entire correspondence set. We evaluate the algorithm on time-of-flight (ToF) data from porcine livers in a respiratory liver motion simulator. In all our experiments the alignment computed from the established surface correspondences yields a registration error below 1cm and is thus well suited for initializing fine surface matching algorithms for intra-operative soft-tissue registration.
One of the main challenges in computer-assisted soft tissue surgery is the registration of multi-modal patient-specific data for enhancing the surgeon's navigation capabilities by observing beyond exposed tissue surfaces. A new approach to marker-less guidance involves capturing the intra-operative patient anatomy with a range image device and doing a shape-based registration. However, as the target organ is only partially visible, typically does not provide salient features and underlies severe non-rigid deformations, surface matching in this context is extremely challenging. Furthermore, the intra-operatively acquired surface data may be subject to severe systematic errors and noise. To address these issues, we propose a new approach to establishing surface correspondences, which can be used to initialize fine surface matching algorithms in the context of intra-operative shape-based registration. Our method does not require any prior knowledge on the relative poses of the input surfaces to each other, does not rely on the detection of prominent surface features, is robust to noise and can be used for overlapping surfaces. It takes into account (1) similarity of feature descriptors, (2) compatibility of multiple correspondence pairs, as well as (3) the spatial configuration of the entire correspondence set. We evaluate the algorithm on time-of-flight (ToF) data from porcine livers in a respiratory liver motion simulator. In all our experiments the alignment computed from the established surface correspondences yields a registration error below 1cm and is thus well suited for initializing fine surface matching algorithms for intra-operative soft-tissue registration.One of the main challenges in computer-assisted soft tissue surgery is the registration of multi-modal patient-specific data for enhancing the surgeon's navigation capabilities by observing beyond exposed tissue surfaces. A new approach to marker-less guidance involves capturing the intra-operative patient anatomy with a range image device and doing a shape-based registration. However, as the target organ is only partially visible, typically does not provide salient features and underlies severe non-rigid deformations, surface matching in this context is extremely challenging. Furthermore, the intra-operatively acquired surface data may be subject to severe systematic errors and noise. To address these issues, we propose a new approach to establishing surface correspondences, which can be used to initialize fine surface matching algorithms in the context of intra-operative shape-based registration. Our method does not require any prior knowledge on the relative poses of the input surfaces to each other, does not rely on the detection of prominent surface features, is robust to noise and can be used for overlapping surfaces. It takes into account (1) similarity of feature descriptors, (2) compatibility of multiple correspondence pairs, as well as (3) the spatial configuration of the entire correspondence set. We evaluate the algorithm on time-of-flight (ToF) data from porcine livers in a respiratory liver motion simulator. In all our experiments the alignment computed from the established surface correspondences yields a registration error below 1cm and is thus well suited for initializing fine surface matching algorithms for intra-operative soft-tissue registration.
[Display omitted] •Marker-less approach for intra-operative soft-tissue registration.•Replaces invasive markers with surface information.•Designed for highly noisy surfaces without salient landmarks.•Evaluation performed on the liver, which is known as a difficult organ to register.•In-vitro evaluation using a time-of-flight camera yields errors below 10mm. One of the main challenges in computer-assisted soft tissue surgery is the registration of multi-modal patient-specific data for enhancing the surgeon’s navigation capabilities by observing beyond exposed tissue surfaces. A new approach to marker-less guidance involves capturing the intra-operative patient anatomy with a range image device and doing a shape-based registration. However, as the target organ is only partially visible, typically does not provide salient features and underlies severe non-rigid deformations, surface matching in this context is extremely challenging. Furthermore, the intra-operatively acquired surface data may be subject to severe systematic errors and noise. To address these issues, we propose a new approach to establishing surface correspondences, which can be used to initialize fine surface matching algorithms in the context of intra-operative shape-based registration. Our method does not require any prior knowledge on the relative poses of the input surfaces to each other, does not rely on the detection of prominent surface features, is robust to noise and can be used for overlapping surfaces. It takes into account (1) similarity of feature descriptors, (2) compatibility of multiple correspondence pairs, as well as (3) the spatial configuration of the entire correspondence set. We evaluate the algorithm on time-of-flight (ToF) data from porcine livers in a respiratory liver motion simulator. In all our experiments the alignment computed from the established surface correspondences yields a registration error below 1cm and is thus well suited for initializing fine surface matching algorithms for intra-operative soft-tissue registration.
Author Wekerle, Anna-Laura
Schlemmer, Heinz-Peter
Kilgus, Thomas
Maier-Hein, Lena
Suwelack, Stefan
Kenngott, Hannes
Speidel, Stefanie
Heimann, Tobias
dos Santos, Thiago Ramos
Seitel, Alexander
Meinzer, Hans-Peter
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Issue 7
Keywords Time-of-flight camera
Surface matching
Intra-operative registration
Computer-assisted surgery
Language English
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Snippet [Display omitted] •Marker-less approach for intra-operative soft-tissue registration.•Replaces invasive markers with surface information.•Designed for highly...
One of the main challenges in computer-assisted soft tissue surgery is the registration of multi-modal patient-specific data for enhancing the surgeon's...
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SubjectTerms Algorithms
Animals
Computer-assisted surgery
Humans
Imaging, Three-Dimensional - methods
Intra-operative registration
Intraoperative Period
Liver - diagnostic imaging
Phantoms, Imaging
Radiographic Image Interpretation, Computer-Assisted - methods
Reproducibility of Results
Sensitivity and Specificity
Surface matching
Surgery, Computer-Assisted - methods
Swine
Time-of-flight camera
Title Pose-independent surface matching for intra-operative soft-tissue marker-less registration
URI https://dx.doi.org/10.1016/j.media.2014.06.002
https://www.ncbi.nlm.nih.gov/pubmed/25038492
https://www.proquest.com/docview/1556284267
Volume 18
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