VCBM 18: Eurographics Workshop on Visual Computing for Biology and Medicine

Permanent URI for this collection

https://diglib.eg.org/handle/10.2312/2632660
Granada, Spain, September 20 – 21, 2018
Table of Contents
Ultrasound
Ultrasound Decompression for Large Field-of-View Reconstructions
[full paper Image] [meta data Image]
Christian Schulte zu Berge, Mehrdad Salehi, Frederik Bender, and Wolfgang Wein
Interaction and Evaluation
ICG based Augmented-Reality-System for Sentinel Lymph Node Biopsy
[full paper Image] [meta data Image]
Matthias Noll, Werner Noa-Rudolph, Stefan Wesarg, Michael Kraly, Ingo Stoffels, Joachim Klode, Cédric Spass, and Gerrit Spass
A Prototype Holographic Augmented Reality Interface for Image-Guided Prostate Cancer Interventions
[full paper Image] [meta data Image]
Cristina M. Morales Mojica, Jose D. Velazco Garcia, Nikhil V. Navkar, Shidin Balakrishnan, Julien Abinahed, Walid El Ansari, Khalid Al-Rumaihi, Adham Darweesh, Abdulla Al-Ansari, Mohamed Gharib, Mansour Karkoub, Ernst L. Leiss, Ioannis Seimenis, and Nikolaos V. Tsekos
Visual Analytics in Histopathology Diagnostics: a Protocol-Based Approach
[full paper Image] [meta data Image]
Alberto Corvò, Michel A. Westenberg, Marc A. van Driel, and Jarke J.van Wijk
Automatic Generation of Web-Based User Studies to Evaluate Depth Perception in Vascular Surface Visualizations
[full paper Image] [meta data Image]
Monique Meuschke, Noeska N. Smit, Nils Lichtenberg, Bernhard Preim, and Kai Lawonn
A Critical Analysis of the Evaluation Practice in Medical Visualization
[full paper Image] [meta data Image]
Bernhard Preim, Timo Ropinski, and Petra Isenberg
Head and Brain
Annotated Dendrograms for Neurons From the Larval Fruit Fly Brain
[full paper Image] [meta data Image]
Martin Strauch, Volker Hartenstein, Ingrid V. Andrade, Albert Cardona, and Dorit Merhof
A Multilinear Model for Bidirectional Craniofacial Reconstruction
[full paper Image] [meta data Image]
Jascha Achenbach, Robert Brylka, Thomas Gietzen, Katja zum Hebel, Elmar Schömer, Ralf Schulze, Mario Botsch, and Ulrich Schwanecke
Iterative Exploration of Big Brain Network Data
[full paper Image] [meta data Image]
Florian Ganglberger, Nicolas Swoboda, Lisa Frauenstein, Joanna Kaczanowska, Wulf Haubensak, and Katja Bühler
Progressive and Efficient Multi-Resolution Representations for Brain Tractograms
[full paper Image] [meta data Image]
Corentin Mercier, Pietro Gori, Damien Rohmer, Marie-Paule Cani, Tamy Boubekeur, Jean-Marc Thiery, and Isabelle Bloch
Visual Analysis of Evolution of EEG Coherence Networks employing Temporal Multidimensional Scaling
[full paper Image] [meta data Image]
Chengtao Ji, Natasha M. Maurits, and Jos B. T. M. Roerdink
Introducing CNN-Based Mouse Grim Scale Analysis for Fully Automated Image-Based Assessment of Distress in Laboratory Mice
[full paper Image] [meta data Image]
Marcin Kopaczka, Lisa Ernst, Justus Schock, Arne Schneuing, Alexander Guth, Rene Tolba, and Dorit Merhof
Deep Learning
Uncertainty-Guided Semi-Automated Editing of CNN-based Retinal Layer Segmentations in Optical Coherence Tomography
[full paper Image] [meta data Image]
Shekoufeh Gorgi Zadeh, Maximilian W. M. Wintergerst, and Thomas Schultz
Cardiovascular
A Framework for Visual Comparison of 4D PC-MRI Aortic Blood Flow Data
[full paper Image] [meta data Image]
Benjamin Behrendt, Sebastian Ebel, Matthias Gutberlet, and Bernhard Preim
A New Vessel Enhancement Transform on Retinal Blood Vessels Segmentation
[full paper Image] [meta data Image]
Ivo Soares, Miguel Castelo-Branco, and António M. G. Pinheiro
Visual Assessment of Vascular Torsion using Ellipse Fitting
[full paper Image] [meta data Image]
Gabriel Mistelbauer, Martin Zettwitz, Rüdiger Schernthaner, Dominik Fleischmann, Christian Teutsch, and Bernhard Preim
Visual Analysis of Regional Anomalies in Myocardial Motion
[full paper Image] [meta data Image]
Ali Sheharyar, Alexander Ruh, Maria Aristova, Michael Scott, Kelly Jarvis, Mohammed Elbaz, Ryan Dolan, Susanne Schnell, Kal Lin, James Carr, Michael Markl, Othmane Bouhali, and Lars Linsen
Surfaces
Parameterization and Feature Extraction for the Visualization of Tree-like Structures
[full paper Image] [meta data Image]
Nils Lichtenberg and Kai Lawonn
Estimation of Muscle Activity in One-Leg Stance from 3D Surface Deformation
[full paper Image] [meta data Image]
Johannes Metzler, Thomas Neumann, Stefanie Gassel, Jens Friedrich, and Markus Wacker
VisualFlatter - Visual Analysis of Distortions in the Projection of Biomedical Structures
[full paper Image] [meta data Image]
Nicolas Grossmann, Thomas Köppel, Eduard Gröller, and Renata Georgia Raidou
Global and Local Mesh Morphing for Complex Biological Objects from µCT Data
[full paper Image] [meta data Image]
David Knötel, Carola Becker, Gerhard Scholtz, and Daniel Baum
Biology
Improving Perception of Molecular Surface Visualizations by Incorporating Translucency Effects
[full paper Image] [meta data Image]
Pedro Hermosilla, Sebastian Maisch, Pere-Pau Vázquez, and Timo Ropinski
Semantic Screen-Space Occlusion for Multiscale Molecular Visualization
[full paper Image] [meta data Image]
Thomas Bernhard Koch, David Kouril, Tobias Klein, Peter Mindek, and Ivan Viola
Visual Exploratory Analysis for Multiple T-Maze Studies
[full paper Image] [meta data Image]
Fabrizia Bechtold, Rainer Splechtna, and Kresimir Matkovic

BibTeX (VCBM 18: Eurographics Workshop on Visual Computing for Biology and Medicine)
@inproceedings{
10.2312:vcbm.20181223,

booktitle = {
Eurographics Workshop on Visual Computing for Biology and Medicine},

editor = {
Puig Puig, Anna and Schultz, Thomas and Vilanova, Anna and Hotz, Ingrid and Kozlikova, Barbora and Vázquez, Pere-Pau
},
title = {{
Ultrasound Decompression for Large Field-of-View Reconstructions}},

author = {
Schulte zu Berge, Christian
 and 
Salehi, Mehrdad
 and 
Bender, Frederik
 and 
Wein, Wolfgang
},
year = {
2018},

publisher = {
The Eurographics Association},


ISSN = {2070-5786},
ISBN = {978-3-03868-056-7},

DOI = {
10.2312/vcbm.20181223}

}
@inproceedings{
10.2312:vcbm.20181224,

booktitle = {
Eurographics Workshop on Visual Computing for Biology and Medicine},

editor = {
Puig Puig, Anna and Schultz, Thomas and Vilanova, Anna and Hotz, Ingrid and Kozlikova, Barbora and Vázquez, Pere-Pau
},
title = {{
ICG based Augmented-Reality-System for Sentinel Lymph Node Biopsy}},

author = {
Noll, Matthias
 and 
Noa-Rudolph, Werner
 and 
Wesarg, Stefan
 and 
Kraly, Michael
 and 
Stoffels, Ingo
 and 
Klode, Joachim
 and 
Spass, Cédric
 and 
Spass, Gerrit
},
year = {
2018},

publisher = {
The Eurographics Association},


ISSN = {2070-5786},
ISBN = {978-3-03868-056-7},

DOI = {
10.2312/vcbm.20181224}

}
@inproceedings{
10.2312:vcbm.20181225,

booktitle = {
Eurographics Workshop on Visual Computing for Biology and Medicine},

editor = {
Puig Puig, Anna and Schultz, Thomas and Vilanova, Anna and Hotz, Ingrid and Kozlikova, Barbora and Vázquez, Pere-Pau
},
title = {{
A Prototype Holographic Augmented Reality Interface for Image-Guided Prostate Cancer Interventions}},

author = {
Morales Mojica, Cristina M.
 and 
Velazco Garcia, Jose D.
 and 
Karkoub, Mansour
 and 
Leiss, Ernst L.
 and 
Seimenis, Ioannis
 and 
Tsekos, Nikolaos V.
 and 
Navkar, Nikhil V.
 and 
Balakrishnan, Shidin
 and 
Abinahed, Julien
 and 
El Ansari, Walid
 and 
Al-Rumaihi, Khalid
 and 
Darweesh, Adham
 and 
Al-Ansari, Abdulla
 and 
Gharib, Mohamed
},
year = {
2018},

publisher = {
The Eurographics Association},


ISSN = {2070-5786},
ISBN = {978-3-03868-056-7},

DOI = {
10.2312/vcbm.20181225}

}
@inproceedings{
10.2312:vcbm.20181226,

booktitle = {
Eurographics Workshop on Visual Computing for Biology and Medicine},

editor = {
Puig Puig, Anna and Schultz, Thomas and Vilanova, Anna and Hotz, Ingrid and Kozlikova, Barbora and Vázquez, Pere-Pau
},
title = {{
Visual Analytics in Histopathology Diagnostics: a Protocol-Based Approach}},

author = {
Corvò, Alberto
 and 
Westenberg, Michel A.
 and 
Driel, Marc A. van
 and 
Wijk, Jarke J.van
},
year = {
2018},

publisher = {
The Eurographics Association},


ISSN = {2070-5786},
ISBN = {978-3-03868-056-7},

DOI = {
10.2312/vcbm.20181226}

}
@inproceedings{
10.2312:vcbm.20181227,

booktitle = {
Eurographics Workshop on Visual Computing for Biology and Medicine},

editor = {
Puig Puig, Anna and Schultz, Thomas and Vilanova, Anna and Hotz, Ingrid and Kozlikova, Barbora and Vázquez, Pere-Pau
},
title = {{
Automatic Generation of Web-Based User Studies to Evaluate Depth Perception in Vascular Surface Visualizations}},

author = {
Meuschke, Monique
 and 
Smit, Noeska N.
 and 
Lichtenberg, Nils
 and 
Preim, Bernhard
 and 
Lawonn, Kai
},
year = {
2018},

publisher = {
The Eurographics Association},


ISSN = {2070-5786},
ISBN = {978-3-03868-056-7},

DOI = {
10.2312/vcbm.20181227}

}
@inproceedings{
10.2312:vcbm.20181228,

booktitle = {
Eurographics Workshop on Visual Computing for Biology and Medicine},

editor = {
Puig Puig, Anna and Schultz, Thomas and Vilanova, Anna and Hotz, Ingrid and Kozlikova, Barbora and Vázquez, Pere-Pau
},
title = {{
A Critical Analysis of the Evaluation Practice in Medical Visualization}},

author = {
Preim, Bernhard
 and 
Ropinski, Timo
 and 
Isenberg, Petra
},
year = {
2018},

publisher = {
The Eurographics Association},


ISSN = {2070-5786},
ISBN = {978-3-03868-056-7},

DOI = {
10.2312/vcbm.20181228}

}
@inproceedings{
10.2312:vcbm.20181229,

booktitle = {
Eurographics Workshop on Visual Computing for Biology and Medicine},

editor = {
Puig Puig, Anna and Schultz, Thomas and Vilanova, Anna and Hotz, Ingrid and Kozlikova, Barbora and Vázquez, Pere-Pau
},
title = {{
Annotated Dendrograms for Neurons From the Larval Fruit Fly Brain}},

author = {
Strauch, Martin
 and 
Hartenstein, Volker
 and 
Andrade, Ingrid V.
 and 
Cardona, Albert
 and 
Merhof, Dorit
},
year = {
2018},

publisher = {
The Eurographics Association},


ISSN = {2070-5786},
ISBN = {978-3-03868-056-7},

DOI = {
10.2312/vcbm.20181229}

}
@inproceedings{
10.2312:vcbm.20181230,

booktitle = {
Eurographics Workshop on Visual Computing for Biology and Medicine},

editor = {
Puig Puig, Anna and Schultz, Thomas and Vilanova, Anna and Hotz, Ingrid and Kozlikova, Barbora and Vázquez, Pere-Pau
},
title = {{
A Multilinear Model for Bidirectional Craniofacial Reconstruction}},

author = {
Achenbach, Jascha
 and 
Brylka, Robert
 and 
Gietzen, Thomas
 and 
Hebel, Katja zum
 and 
Schömer, Elmar
 and 
Schulze, Ralf
 and 
Botsch, Mario
 and 
Schwanecke, Ulrich
},
year = {
2018},

publisher = {
The Eurographics Association},


ISSN = {2070-5786},
ISBN = {978-3-03868-056-7},

DOI = {
10.2312/vcbm.20181230}

}
@inproceedings{
10.2312:vcbm.20181231,

booktitle = {
Eurographics Workshop on Visual Computing for Biology and Medicine},

editor = {
Puig Puig, Anna and Schultz, Thomas and Vilanova, Anna and Hotz, Ingrid and Kozlikova, Barbora and Vázquez, Pere-Pau
},
title = {{
Iterative Exploration of Big Brain Network Data}},

author = {
Ganglberger, Florian
 and 
Swoboda, Nicolas
 and 
Frauenstein, Lisa
 and 
Kaczanowska, Joanna
 and 
Haubensak, Wulf
 and 
Bühler, Katja
},
year = {
2018},

publisher = {
The Eurographics Association},


ISSN = {2070-5786},
ISBN = {978-3-03868-056-7},

DOI = {
10.2312/vcbm.20181231}

}
@inproceedings{
10.2312:vcbm.20181233,

booktitle = {
Eurographics Workshop on Visual Computing for Biology and Medicine},

editor = {
Puig Puig, Anna and Schultz, Thomas and Vilanova, Anna and Hotz, Ingrid and Kozlikova, Barbora and Vázquez, Pere-Pau
},
title = {{
Visual Analysis of Evolution of EEG Coherence Networks employing Temporal Multidimensional Scaling}},

author = {
Ji, Chengtao
 and 
Maurits, Natasha M.
 and 
Roerdink, Jos B. T. M.
},
year = {
2018},

publisher = {
The Eurographics Association},


ISSN = {2070-5786},
ISBN = {978-3-03868-056-7},

DOI = {
10.2312/vcbm.20181233}

}
@inproceedings{
10.2312:vcbm.20181232,

booktitle = {
Eurographics Workshop on Visual Computing for Biology and Medicine},

editor = {
Puig Puig, Anna and Schultz, Thomas and Vilanova, Anna and Hotz, Ingrid and Kozlikova, Barbora and Vázquez, Pere-Pau
},
title = {{
Progressive and Efficient Multi-Resolution Representations for Brain Tractograms}},

author = {
Mercier, Corentin
 and 
Gori, Pietro
 and 
Rohmer, Damien
 and 
Cani, Marie-Paule
 and 
Boubekeur, Tamy
 and 
Thiery, Jean-Marc
 and 
Bloch, Isabelle
},
year = {
2018},

publisher = {
The Eurographics Association},


ISSN = {2070-5786},
ISBN = {978-3-03868-056-7},

DOI = {
10.2312/vcbm.20181232}

}
@inproceedings{
10.2312:vcbm.20181235,

booktitle = {
Eurographics Workshop on Visual Computing for Biology and Medicine},

editor = {
Puig Puig, Anna and Schultz, Thomas and Vilanova, Anna and Hotz, Ingrid and Kozlikova, Barbora and Vázquez, Pere-Pau
},
title = {{
Uncertainty-Guided Semi-Automated Editing of CNN-based Retinal Layer Segmentations in Optical Coherence Tomography}},

author = {
Zadeh, Shekoufeh Gorgi
 and 
Wintergerst, Maximilian W. M.
 and 
Schultz, Thomas
},
year = {
2018},

publisher = {
The Eurographics Association},


ISSN = {2070-5786},
ISBN = {978-3-03868-056-7},

DOI = {
10.2312/vcbm.20181235}

}
@inproceedings{
10.2312:vcbm.20181234,

booktitle = {
Eurographics Workshop on Visual Computing for Biology and Medicine},

editor = {
Puig Puig, Anna and Schultz, Thomas and Vilanova, Anna and Hotz, Ingrid and Kozlikova, Barbora and Vázquez, Pere-Pau
},
title = {{
Introducing CNN-Based Mouse Grim Scale Analysis for Fully Automated Image-Based Assessment of Distress in Laboratory Mice}},

author = {
Kopaczka, Marcin
 and 
Ernst, Lisa
 and 
Schock, Justus
 and 
Schneuing, Arne
 and 
Guth, Alexander
 and 
Tolba, Rene
 and 
Merhof, Dorit
},
year = {
2018},

publisher = {
The Eurographics Association},


ISSN = {2070-5786},
ISBN = {978-3-03868-056-7},

DOI = {
10.2312/vcbm.20181234}

}
@inproceedings{
10.2312:vcbm.20181236,

booktitle = {
Eurographics Workshop on Visual Computing for Biology and Medicine},

editor = {
Puig Puig, Anna and Schultz, Thomas and Vilanova, Anna and Hotz, Ingrid and Kozlikova, Barbora and Vázquez, Pere-Pau
},
title = {{
A Framework for Visual Comparison of 4D PC-MRI Aortic Blood Flow Data}},

author = {
Behrendt, Benjamin
 and 
Ebel, Sebastian
 and 
Gutberlet, Matthias
 and 
Preim, Bernhard
},
year = {
2018},

publisher = {
The Eurographics Association},


ISSN = {2070-5786},
ISBN = {978-3-03868-056-7},

DOI = {
10.2312/vcbm.20181236}

}
@inproceedings{
10.2312:vcbm.20181237,

booktitle = {
Eurographics Workshop on Visual Computing for Biology and Medicine},

editor = {
Puig Puig, Anna and Schultz, Thomas and Vilanova, Anna and Hotz, Ingrid and Kozlikova, Barbora and Vázquez, Pere-Pau
},
title = {{
A New Vessel Enhancement Transform on Retinal Blood Vessels Segmentation}},

author = {
Soares, Ivo
 and 
Castelo-Branco, Miguel
 and 
Pinheiro, António M. G.
},
year = {
2018},

publisher = {
The Eurographics Association},


ISSN = {2070-5786},
ISBN = {978-3-03868-056-7},

DOI = {
10.2312/vcbm.20181237}

}
@inproceedings{
10.2312:vcbm.20181238,

booktitle = {
Eurographics Workshop on Visual Computing for Biology and Medicine},

editor = {
Puig Puig, Anna and Schultz, Thomas and Vilanova, Anna and Hotz, Ingrid and Kozlikova, Barbora and Vázquez, Pere-Pau
},
title = {{
Visual Assessment of Vascular Torsion using Ellipse Fitting}},

author = {
Mistelbauer, Gabriel
 and 
Zettwitz, Martin
 and 
Schernthaner, Rüdiger
 and 
Fleischmann, Dominik
 and 
Teutsch, Christian
 and 
Preim, Bernhard
},
year = {
2018},

publisher = {
The Eurographics Association},


ISSN = {2070-5786},
ISBN = {978-3-03868-056-7},

DOI = {
10.2312/vcbm.20181238}

}
@inproceedings{
10.2312:vcbm.20181239,

booktitle = {
Eurographics Workshop on Visual Computing for Biology and Medicine},

editor = {
Puig Puig, Anna and Schultz, Thomas and Vilanova, Anna and Hotz, Ingrid and Kozlikova, Barbora and Vázquez, Pere-Pau
},
title = {{
Visual Analysis of Regional Anomalies in Myocardial Motion}},

author = {
Sheharyar, Ali
 and 
Ruh, Alexander
 and 
Markl, Michael
 and 
Bouhali, Othmane
 and 
Linsen, Lars
 and 
Aristova, Maria
 and 
Scott, Michael
 and 
Jarvis, Kelly
 and 
Elbaz, Mohammed
 and 
Dolan, Ryan
 and 
Schnell, Susanne
 and 
Lin, Kal
 and 
Carr, James
},
year = {
2018},

publisher = {
The Eurographics Association},


ISSN = {2070-5786},
ISBN = {978-3-03868-056-7},

DOI = {
10.2312/vcbm.20181239}

}
@inproceedings{
10.2312:vcbm.20181240,

booktitle = {
Eurographics Workshop on Visual Computing for Biology and Medicine},

editor = {
Puig Puig, Anna and Schultz, Thomas and Vilanova, Anna and Hotz, Ingrid and Kozlikova, Barbora and Vázquez, Pere-Pau
},
title = {{
Parameterization and Feature Extraction for the Visualization of Tree-like Structures}},

author = {
Lichtenberg, Nils
 and 
Lawonn, Kai
},
year = {
2018},

publisher = {
The Eurographics Association},


ISSN = {2070-5786},
ISBN = {978-3-03868-056-7},

DOI = {
10.2312/vcbm.20181240}

}
@inproceedings{
10.2312:vcbm.20181241,

booktitle = {
Eurographics Workshop on Visual Computing for Biology and Medicine},

editor = {
Puig Puig, Anna and Schultz, Thomas and Vilanova, Anna and Hotz, Ingrid and Kozlikova, Barbora and Vázquez, Pere-Pau
},
title = {{
Estimation of Muscle Activity in One-Leg Stance from 3D Surface Deformation}},

author = {
Metzler, Johannes
 and 
Neumann, Thomas
 and 
Gassel, Stefanie
 and 
Friedrich, Jens
 and 
Wacker, Markus
},
year = {
2018},

publisher = {
The Eurographics Association},


ISSN = {2070-5786},
ISBN = {978-3-03868-056-7},

DOI = {
10.2312/vcbm.20181241}

}
@inproceedings{
10.2312:vcbm.20181242,

booktitle = {
Eurographics Workshop on Visual Computing for Biology and Medicine},

editor = {
Puig Puig, Anna and Schultz, Thomas and Vilanova, Anna and Hotz, Ingrid and Kozlikova, Barbora and Vázquez, Pere-Pau
},
title = {{
VisualFlatter - Visual Analysis of Distortions in the Projection of Biomedical Structures}},

author = {
Grossmann, Nicolas
 and 
Köppel, Thomas
 and 
Gröller, Eduard
 and 
Raidou, Renata Georgia
},
year = {
2018},

publisher = {
The Eurographics Association},


ISSN = {2070-5786},
ISBN = {978-3-03868-056-7},

DOI = {
10.2312/vcbm.20181242}

}
@inproceedings{
10.2312:vcbm.20181243,

booktitle = {
Eurographics Workshop on Visual Computing for Biology and Medicine},

editor = {
Puig Puig, Anna and Schultz, Thomas and Vilanova, Anna and Hotz, Ingrid and Kozlikova, Barbora and Vázquez, Pere-Pau
},
title = {{
Global and Local Mesh Morphing for Complex Biological Objects from µCT Data}},

author = {
Knötel, David
 and 
Becker, Carola
 and 
Scholtz, Gerhard
 and 
Baum, Daniel
},
year = {
2018},

publisher = {
The Eurographics Association},


ISSN = {2070-5786},
ISBN = {978-3-03868-056-7},

DOI = {
10.2312/vcbm.20181243}

}
@inproceedings{
10.2312:vcbm.20181244,

booktitle = {
Eurographics Workshop on Visual Computing for Biology and Medicine},

editor = {
Puig Puig, Anna and Schultz, Thomas and Vilanova, Anna and Hotz, Ingrid and Kozlikova, Barbora and Vázquez, Pere-Pau
},
title = {{
Improving Perception of Molecular Surface Visualizations by Incorporating Translucency Effects}},

author = {
Hermosilla, Pedro
 and 
Maisch, Sebastian
 and 
Vázquez, Pere-Pau
 and 
Ropinski, Timo
},
year = {
2018},

publisher = {
The Eurographics Association},


ISSN = {2070-5786},
ISBN = {978-3-03868-056-7},

DOI = {
10.2312/vcbm.20181244}

}
@inproceedings{
10.2312:vcbm.20181245,

booktitle = {
Eurographics Workshop on Visual Computing for Biology and Medicine},

editor = {
Puig Puig, Anna and Schultz, Thomas and Vilanova, Anna and Hotz, Ingrid and Kozlikova, Barbora and Vázquez, Pere-Pau
},
title = {{
Semantic Screen-Space Occlusion for Multiscale Molecular Visualization}},

author = {
Koch, Thomas Bernhard
 and 
Kouril, David
 and 
Klein, Tobias
 and 
Mindek, Peter
 and 
Viola, Ivan
},
year = {
2018},

publisher = {
The Eurographics Association},


ISSN = {2070-5786},
ISBN = {978-3-03868-056-7},

DOI = {
10.2312/vcbm.20181245}

}
@inproceedings{
10.2312:vcbm.20181246,

booktitle = {
Eurographics Workshop on Visual Computing for Biology and Medicine},

editor = {
Puig Puig, Anna and Schultz, Thomas and Vilanova, Anna and Hotz, Ingrid and Kozlikova, Barbora and Vázquez, Pere-Pau
},
title = {{
Visual Exploratory Analysis for Multiple T-Maze Studies}},

author = {
Bechtold, Fabrizia
 and 
Splechtna, Rainer
 and 
Matkovic, Kresimir
},
year = {
2018},

publisher = {
The Eurographics Association},


ISSN = {2070-5786},
ISBN = {978-3-03868-056-7},

DOI = {
10.2312/vcbm.20181246}

}

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Recent Submissions

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  • Thumbnail Image
    Item
    Frontmatter: Eurographics Workshop on Visual Computing for Biology and Medicine 2018
    (The Eurographics Association, 2018) Puig Puig, Anna; Schultz, Thomas; Vilanova, Anna; Hotz, Ingrid; Kozlikova, Barbora; Vázquez, Pere-Pau; Puig Puig, Anna and Schultz, Thomas and Vilanova, Anna and Hotz, Ingrid and Kozlikova, Barbora and Vázquez, Pere-Pau
  • Thumbnail Image
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    Ultrasound Decompression for Large Field-of-View Reconstructions
    (The Eurographics Association, 2018) Schulte zu Berge, Christian; Salehi, Mehrdad; Bender, Frederik; Wein, Wolfgang; Puig Puig, Anna and Schultz, Thomas and Vilanova, Anna and Hotz, Ingrid and Kozlikova, Barbora and Vázquez, Pere-Pau
    Tracked medical ultrasound allows for cost-effective and radiation-free imaging of anatomy featuring a very high spatial resolution. To overcome the limitations of the small field-of-view, sonographers can acquire multiple adjacent sweeps and compound them into a single volumetric representation. However, due to the inherent local and non-uniform compression of the underlying anatomy (caused by the ultrasound probe) the adjacent sweeps often exhibit poor alignment and discontinuities. We propose a novel decompression model to compensate for probe pressure related artifacts. It incorporates domain knowledge of the global acquisition pattern for regularization and allows for seamless stitching of multiple overlapping 3D freehand sweeps into one volume. The resulting extended field-of-view visualization provides the clinician with spatial context so that the relationship between individual features are easier to understand. Our experiments show that the resulting extended field-of-view reconstructions have a superior image quality in terms of alignment and continuity of the visible anatomy compared to the original acquisitions. Comparison to ground truth MRI data demonstrates the plausibility of our non-rigid decompression model.
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    ICG based Augmented-Reality-System for Sentinel Lymph Node Biopsy
    (The Eurographics Association, 2018) Noll, Matthias; Noa-Rudolph, Werner; Wesarg, Stefan; Kraly, Michael; Stoffels, Ingo; Klode, Joachim; Spass, Cédric; Spass, Gerrit; Puig Puig, Anna and Schultz, Thomas and Vilanova, Anna and Hotz, Ingrid and Kozlikova, Barbora and Vázquez, Pere-Pau
    In this paper we introduce a novel augmented-reality (AR) system for the sentinel lymph node (SLN) biopsy. The AR system consists of a cubic recording device with integrated stereo near-infrared (NIR) and stereo color cameras, an head mounted display (HMD) for visualizing the SLN information directly into the physicians view and a controlling software application. The labeling of the SLN is achieved using the fluorescent dye indocyanine green (ICG). The dye accumulates in the SLN where it is excited to fluorescence by applying infrared light. The fluorescence is recorded from two directions by the NIR stereo cameras using appropriate filters. Applying the known rigid camera geometry, an ICG depth map can be generated from the camera images, thus creating a live 3D representation of the SLN. The representation is then superimposed to the physicians field of view, by applying a series of coordinate system transformations, that are determined in four separate system calibration steps. To compensate for the head motion, the recording systems is continuously tracked by a single camera on the HMD using fiducial markers. Because the system does not require additional monitors, the physicians attention is kept solely on the operation site. This can potentially decrease the intervention time and render the procedure safer for the patient.
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    A Prototype Holographic Augmented Reality Interface for Image-Guided Prostate Cancer Interventions
    (The Eurographics Association, 2018) Morales Mojica, Cristina M.; Velazco Garcia, Jose D.; Navkar, Nikhil V.; Balakrishnan, Shidin; Abinahed, Julien; El Ansari, Walid; Al-Rumaihi, Khalid; Darweesh, Adham; Al-Ansari, Abdulla; Gharib, Mohamed; Karkoub, Mansour; Leiss, Ernst L.; Seimenis, Ioannis; Tsekos, Nikolaos V.; Puig Puig, Anna and Schultz, Thomas and Vilanova, Anna and Hotz, Ingrid and Kozlikova, Barbora and Vázquez, Pere-Pau
    Motivated by the potential of holographic augmented reality (AR) to offer an immersive 3D appreciation of morphology and anatomy, the purpose of this work is to develop and assess an interface for image-based planning of prostate interventions with a head-mounted display (HMD). The computational system is a data and command pipeline that links a magnetic resonance imaging (MRI) scanner/data and the operator, that includes modules dedicated to image processing and segmentation, structure rendering, trajectory planning and spatial co-registration. The interface was developed with the Unity3D Engine (C#) and deployed and tested on a HoloLens HMD. For ergonomics in the surgical suite, the system was endowed with hands-free interactive manipulation of images and the holographic scene via hand gestures and voice commands. The system was tested in silico using MRI and ultrasound datasets of prostate phantoms. The holographic AR scene rendered by the HoloLens HMD was subjectively found superior to desktop-based volume or 3D rendering with regard to structure detection and appreciation of spatial relationships, planning access paths and manual co-registration of MRI and Ultrasound. By inspecting the virtual trajectory superimposed to rendered structures and MR images, the operator observes collisions of the needle path with vital structures (e.g. urethra) and adjusts accordingly. Holographic AR interfacing with wireless HMD endowed with hands-free gesture and voice control is a promising technology. Studies need to systematically assess the clinical merit of such systems and needed functionalities.
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    Visual Analytics in Histopathology Diagnostics: a Protocol-Based Approach
    (The Eurographics Association, 2018) Corvò, Alberto; Westenberg, Michel A.; Driel, Marc A. van; Wijk, Jarke J.van; Puig Puig, Anna and Schultz, Thomas and Vilanova, Anna and Hotz, Ingrid and Kozlikova, Barbora and Vázquez, Pere-Pau
    Computer-Aided-Diagnosis (CAD) systems supporting the diagnostic process are widespread in radiology. Digital Pathology is still behind in the introduction of such solutions. Several studies investigated pathologists' behavior but only a few aimed to improve the diagnostic and report process with novel applications. In this work we designed and implemented a first protocol-based CAD viewer supported by visual analytics. The system targets the optimization of the diagnostic workflow in breast cancer diagnosis by means of three image analysis features that belong to the standard grading system (Nottingham Histologic Grade). A pathologist's routine was tracked during the examination of breast cancer tissue slides and diagnostic traces were analyzed from a qualitative perspective. Accordingly, a set of generic requirements was elicited to define the design and the implementation of the CAD-Viewer. A first qualitative evaluation conducted with five pathologists shows that the interface suffices the diagnostic workflow and diminishes the manual effort. We present promising evidence of the usefulness of our CAD-viewer and opportunities for its extension and integration in clinical practice. As a conclusion, the findings demonstrate that it is feasibile to optimize the Nottingham Grading workflow and, generally, the histological diagnosis by integrating computational pathology data with visual analytics techniques.
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    Automatic Generation of Web-Based User Studies to Evaluate Depth Perception in Vascular Surface Visualizations
    (The Eurographics Association, 2018) Meuschke, Monique; Smit, Noeska N.; Lichtenberg, Nils; Preim, Bernhard; Lawonn, Kai; Puig Puig, Anna and Schultz, Thomas and Vilanova, Anna and Hotz, Ingrid and Kozlikova, Barbora and Vázquez, Pere-Pau
    User studies are often required in biomedical visualization application papers in order to provide evidence for the utility of the presented approach. An important aspect is how well depth information can be perceived, as depth encoding is important to enable an understandable representation of complex data. Unfortunately, in practice there is often little time available to perform such studies, and setting up and conducting user studies may be labor-intensive. In addition, it can be challenging to reach enough participants to support the contribution claims of the paper. In this paper, we propose a system that allows biomedical visualization researchers to quickly generate perceptual task-based user studies for novel surface visualizations, and to perform the resulting experiment via a web interface. This approach helps to reduce effort in the setup of user studies themselves, and at the same time leverages a web-based approach that can help researchers attract more participants to their study. We demonstrate our system using the specific application of depth judgment tasks to evaluate vascular surface visualizations, since there is a lot of recent interest in this area. However, the system is also generally applicable for conducting other task-based user studies in biomedical visualization.
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    A Critical Analysis of the Evaluation Practice in Medical Visualization
    (The Eurographics Association, 2018) Preim, Bernhard; Ropinski, Timo; Isenberg, Petra; Puig Puig, Anna and Schultz, Thomas and Vilanova, Anna and Hotz, Ingrid and Kozlikova, Barbora and Vázquez, Pere-Pau
    Medical visualization aims at directly supporting physicians in diagnosis and treatment planning, students and residents in medical education, and medical physicists as well as other medical researchers in answering specific research questions. For assessing whether single medical visualization techniques or entire medical visualization systems are useful in this respect, empirical evaluations involving participants from the target user group are indispensable. The human computer interaction field developed a wide range of evaluation instruments, and the information visualization community more recently adapted and refined these instruments for evaluating (information) visualization systems. However, often medical visualization lacks behind and should pay more attention to evaluation, in particular to evaluations in realistic settings that may assess how visualization techniques contribute to cognitive activities, such as deciding about a surgical strategy or other complex treatment decisions. In this vein, evaluations that are performed over a longer period are promising to study, in order to investigate how techniques are adapted. In this paper, we discuss the evaluation practice in medical visualization based on selected examples and contrast these evaluations with the broad range of existing empirical evaluation techniques. We would like to emphasize that this paper does not serve as a general call for evaluation in medical visualization, but argues that the individual situation must be assessed and that evaluations when they are carried out should be done more carefully.
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    Annotated Dendrograms for Neurons From the Larval Fruit Fly Brain
    (The Eurographics Association, 2018) Strauch, Martin; Hartenstein, Volker; Andrade, Ingrid V.; Cardona, Albert; Merhof, Dorit; Puig Puig, Anna and Schultz, Thomas and Vilanova, Anna and Hotz, Ingrid and Kozlikova, Barbora and Vázquez, Pere-Pau
    Recent advances in neuroscience have made it possible to reconstruct all neurons of an entire neural circuit in the larval fruit fly brain from serial electron microscopy image stacks. The reconstructed neurons are morphologically complex 3D graphs whose nodes are annotated with labels representing different types of synapses. Here, we propose a method to draw simplified, yet realistic 2D neuron sketches of insect neurons in order to help biologists formulate hypotheses on neural function at the microcircuit level. The sketches are dendrograms that capture a neuron's branching structure and that preserve branch lengths, providing realistic estimates for distances and signal travel times between synapses. To improve readability of the often densely clustered synapse annotations, synapses are automatically summarized in local clusters of synapses of the same type and arranged to minimize label overlap. We show that two major neuron classes of an olfactory circuit in the larval fruit fly brain can be discriminated visually based on the dendrograms. Unsupervised and supervised data analysis reveals that class discrimination can be performed using morphological features derived from the dendrograms.
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    A Multilinear Model for Bidirectional Craniofacial Reconstruction
    (The Eurographics Association, 2018) Achenbach, Jascha; Brylka, Robert; Gietzen, Thomas; Hebel, Katja zum; Schömer, Elmar; Schulze, Ralf; Botsch, Mario; Schwanecke, Ulrich; Puig Puig, Anna and Schultz, Thomas and Vilanova, Anna and Hotz, Ingrid and Kozlikova, Barbora and Vázquez, Pere-Pau
    We present a bidirectional facial reconstruction method for estimating the skull given a scan of the skin surface and vice versa estimating the skin surface given the skull. Our approach is based on a multilinear model that describes the correlation between the skull and the facial soft tissue thickness (FSTT) on the one hand and the head/face surface geometry on the other hand. Training this model requires to densely sample the Cartesian product space of skull shape times FSTT variation, which cannot be obtained by measurements alone. We generate this data by enriching measured data-volumetric computed tomography scans and 3D surface scans of the head-by simulating statistically plausible FSTT variations. We demonstrate the versatility of our novel multilinear model by estimating faces from given skulls as well as skulls from given faces within just a couple of seconds. To foster further research in this direction, we will make our multilinear model publicly available.
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    Iterative Exploration of Big Brain Network Data
    (The Eurographics Association, 2018) Ganglberger, Florian; Swoboda, Nicolas; Frauenstein, Lisa; Kaczanowska, Joanna; Haubensak, Wulf; Bühler, Katja; Puig Puig, Anna and Schultz, Thomas and Vilanova, Anna and Hotz, Ingrid and Kozlikova, Barbora and Vázquez, Pere-Pau
    A current quest in neurscience is the understanding of how genes, structure and behavior relate to one another. In recent years, big brain-initiatives and consortia have created vast resources of publicly available brain data that can be used by neuroscientists for their own research experiments. This includes microscale connectivity data - brain-network graphs with billions of edges - whose analysis for higher order relations in structural or functional neuroanatomy together with genetic data may reveal novel insights into brain functionality. This creates a need for joint exploration of spatial data, such as gene expression patterns, whole brain gene co-expression correlation, structural and functional connectivities together with neuroanatomical parcellations. Current experimental workflows involve time-consuming manual aggregation and extensive graph theoretical analysis of data from different sources, which rarely provide spatial context to operate continuously on different scales. We propose a web-based framework to explore heterogeneous neurobiological data in an integrated visual analytics workflow. On-demand queries on spatial gene expression and connectivity data enable an interactive dissection of dense network graphs - with of billion-edges on voxel-resolution - in real-time based on their spatial context. In order to take higher order connections between brain regions into account, queries can be executed in a cascading way. Relating data to the hierarchical structure of common anatomical atlases allows experts to quantitatively compare multimodal networks on different scales. Additionally, 3D visualizations have been optimized to accommodate for the domain experts’' need for publishable network figures. We demonstrate the relevance of our approach for neuroscience by exploring social-behavior and memory/learning functional neuroanatomy in mice.
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    Visual Analysis of Evolution of EEG Coherence Networks employing Temporal Multidimensional Scaling
    (The Eurographics Association, 2018) Ji, Chengtao; Maurits, Natasha M.; Roerdink, Jos B. T. M.; Puig Puig, Anna and Schultz, Thomas and Vilanova, Anna and Hotz, Ingrid and Kozlikova, Barbora and Vázquez, Pere-Pau
    The community structure of networks plays an important role in their analysis. It represents a high-level organization of objects within a network. However, in many application domains, the relationship between objects in a network changes over time, resulting in the change of community structure (the partition of a network), their attributes (the composition of a community and the values of relationships between communities), or both. Previous animation or timeline-based representations either visualize the change of attributes of networks or the community structure. There is no single method that can optimally show graphs that change in both structure and attributes. In this paper we propose a method for the case of dynamic EEG coherence networks to assist users in exploring the dynamic changes in both their community structure and their attributes. The method uses an initial timeline representation which was designed to provide an overview of changes in community structure. In addition, we order communities and assign colors to them based on their relationships by adapting the existing Temporal Multidimensional Scaling (TMDS) method. Users can identify evolution patterns of dynamic networks from this visualization.
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    Progressive and Efficient Multi-Resolution Representations for Brain Tractograms
    (The Eurographics Association, 2018) Mercier, Corentin; Gori, Pietro; Rohmer, Damien; Cani, Marie-Paule; Boubekeur, Tamy; Thiery, Jean-Marc; Bloch, Isabelle; Puig Puig, Anna and Schultz, Thomas and Vilanova, Anna and Hotz, Ingrid and Kozlikova, Barbora and Vázquez, Pere-Pau
    Current tractography methods generate tractograms composed of millions of 3D polylines, called fibers, making visualization and interpretation extremely challenging, thus complexifying the use of this technique in a clinical environment. We propose to progressively simplify tractograms by grouping similar fibers into generalized cylinders. This produces a fine-grained multiresolution model that provides a progressive and real-time navigation through different levels of detail. This model preserves the overall structure of the tractogram and can be adapted to different measures of similarity. We also provide an efficient implementation of the method based on a Delaunay tetrahedralization. We illustrate our method using the Human Connectome Project dataset.
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    Uncertainty-Guided Semi-Automated Editing of CNN-based Retinal Layer Segmentations in Optical Coherence Tomography
    (The Eurographics Association, 2018) Zadeh, Shekoufeh Gorgi; Wintergerst, Maximilian W. M.; Schultz, Thomas; Puig Puig, Anna and Schultz, Thomas and Vilanova, Anna and Hotz, Ingrid and Kozlikova, Barbora and Vázquez, Pere-Pau
    Convolutional neural networks (CNNs) have enabled dramatic improvements in the accuracy of automated medical image segmentation. Despite this, in many cases, results are still not reliable enough to be trusted ''blindly''. Consequently, a human rater is responsible to check correctness of the final result and needs to be able to correct any segmentation errors that he or she might notice. For a particular use case, segmentation of the retinal pigment epithelium and Bruch's membrane from Optical Coherence Tomography, we develop a system that makes this process more efficient by guiding the rater to segmentations that are most likely to require attention from a human expert, and by developing semi-automated tools for segmentation correction that exploit intermediate representations from the CNN.We demonstrate that our automated ranking of segmentation uncertainty correlates well with a manual assessment of segmentation quality, and with distance to a ground truth segmentation. We also show that, when used together, uncertainty guidance and our semi-automated editing tools decrease the time required for segmentation correction by more than a factor of three.
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    Introducing CNN-Based Mouse Grim Scale Analysis for Fully Automated Image-Based Assessment of Distress in Laboratory Mice
    (The Eurographics Association, 2018) Kopaczka, Marcin; Ernst, Lisa; Schock, Justus; Schneuing, Arne; Guth, Alexander; Tolba, Rene; Merhof, Dorit; Puig Puig, Anna and Schultz, Thomas and Vilanova, Anna and Hotz, Ingrid and Kozlikova, Barbora and Vázquez, Pere-Pau
    International standards require close monitoring of distress of animals undergoing laboratory experiments in order to minimize the stress level and allow choosing minimally stressful procedures for the experiments. Currently, one of the the best established severity assessment procedures is the mouse grimace scale (MGS), a protocol in which images of the animals are taken and scored by assessing five key visual features that have been shown to be highly correlated with distress and pain. While proven to be highly reliable, MGS assessment is currently a time-consuming task requiring manual video processing for key frame extraction and subsequent expert grading. Additionally, due to the the high per-picture expert time required, MGS scoring is performed on a small number of selected frames from a video. To address these shortcomings, we introduce a method for fully automated real-time MGS scoring of orbital eye tightening, one of the five sub-scores. We define and evaluate the method which is centered around a set of convolutional neural networks (CNNs) and allows live continuous MGS assessment of a mouse in real time. We additionally describe a multithreaded client-server architecture with a graphical user interface that allows convenient use of the developed method for simultaneous real-time MGS scoring of several animals.
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    A Framework for Visual Comparison of 4D PC-MRI Aortic Blood Flow Data
    (The Eurographics Association, 2018) Behrendt, Benjamin; Ebel, Sebastian; Gutberlet, Matthias; Preim, Bernhard; Puig Puig, Anna and Schultz, Thomas and Vilanova, Anna and Hotz, Ingrid and Kozlikova, Barbora and Vázquez, Pere-Pau
    Four-dimensional phase-contrast magnetic resonance imaging (4D PC-MRI) allows for the non-invasive acquisition of in-vivo blood flow, producing a patient-specific blood flow model in selected vascular structures, e.g. the aorta. In the past, many specialized techniques for the visualization and exploration of such datasets have been developed, yet a tool for the visual comparison of multiple datasets is missing. Due to the complexity of the underlying data, a simple side-by-side comparison of two datasets using traditional visualization techniques can only yield coarse results. In this paper, we present a toolkit that allows for an efficient and robust registration of different 4D PC-MRI datasets and offers a variety of both qualitative and quantitative comparison techniques. Differences in the segmentation and time frame can be amended semi-automatically using landmarks on the vessel centerline and flow curve of the datasets. A set of measures quantifying the difference between the datasets, such as the flow jet displacement or flow angle and velocity difference, is automatically computed. To support the orientation in the spatio-temporal domain of the flow dataset, we provide bulls-eye plots that highlight potentially interesting regions. In an evaluation with three experienced radiologists, we confirmed the usefulness of our technique. With our application, they were able to discover previously unnoticed artifacts occurring in a dataset acquired with an experimental MRI sequence.
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    A New Vessel Enhancement Transform on Retinal Blood Vessels Segmentation
    (The Eurographics Association, 2018) Soares, Ivo; Castelo-Branco, Miguel; Pinheiro, António M. G.; Puig Puig, Anna and Schultz, Thomas and Vilanova, Anna and Hotz, Ingrid and Kozlikova, Barbora and Vázquez, Pere-Pau
    The automatic detection of retinal blood vessels is a very important task in computer aided-diagnosis of retinal diseases. In this work a new method is proposed for the automated detection of the retinal vessels. Three new and important contributions are made. First, a new method capable of vessel enhancement is presented. Second, a new criterium to remove some false vessels caused by the proximity to bright regions is presented, avoiding the false vessels created by the presence of exudates or bright artifacts. Third, a new method that discards the false vessel regions that usually tends to appear in the border of the optic disc. This is achieved using the derivatives of the gradient magnitude local maxima over different scales. The performance evaluation is made on two publicly available databases, namely, STARE, and HRF with state-of-the-art results. Particularly, the described method reveals to be very reliable on retinal images with large pathological signs.
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    Visual Assessment of Vascular Torsion using Ellipse Fitting
    (The Eurographics Association, 2018) Mistelbauer, Gabriel; Zettwitz, Martin; Schernthaner, Rüdiger; Fleischmann, Dominik; Teutsch, Christian; Preim, Bernhard; Puig Puig, Anna and Schultz, Thomas and Vilanova, Anna and Hotz, Ingrid and Kozlikova, Barbora and Vázquez, Pere-Pau
    Blood vessels are well explored and researched in medicine and visualization. However, the investigation of vascular torsion has yet been unexplored. In order to understand the development and current state of a single blood vessel or even multiple connected ones, properties of vascular structures have to be analyzed. In this paper we assess the torsion of blood vessels in order to better understand their morphology. The aim of this work is to quantitatively gauge blood vessels by using an automated method that assumes an elliptical blood vessel model. This facilitates using state-of-the-art ellipse fitting algorithms from industrial measuring standards. In order to remove outliers, we propose a self-correcting iterative refitting of ellipses using neighboring information. The torsion information is visually conveyed by connecting the major and minor points of adjacent ellipses. Our final visualization comprises a visual representation of the blood vessel including four bands to outline the torsion.
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    Visual Analysis of Regional Anomalies in Myocardial Motion
    (The Eurographics Association, 2018) Sheharyar, Ali; Ruh, Alexander; Aristova, Maria; Scott, Michael; Jarvis, Kelly; Elbaz, Mohammed; Dolan, Ryan; Schnell, Susanne; Lin, Kal; Carr, James; Markl, Michael; Bouhali, Othmane; Linsen, Lars; Puig Puig, Anna and Schultz, Thomas and Vilanova, Anna and Hotz, Ingrid and Kozlikova, Barbora and Vázquez, Pere-Pau
    Regional anomalies in the myocardial motion of the left ventricle (LV) are important biomarkers for several cardiac diseases. Myocardial motion can be captured using a velocity-encoded magnetic resonance imaging method called tissue phase mapping (TPM). The acquired data are pre-processed and represented as regional velocities in cylindrical coordinates at three short-axis slices of the left ventricle over one cardiac cycle. We use a spatio-temporal visualization based on a radial layout where the myocardial regions are laid out in an angular pattern similar to the American Heart Association (AHA) model and the temporal dimension increases with increasing radius. To detect anomalies, we compare patient data against the myocardial motion of a cohort of healthy volunteers. For the healthy volunteer cohort, we compute nested envelopes of central regions for the time series of each region and each of the three velocity directions based on the concept of functional boxplots. A quantitative depiction of deviations from the spatio-temporal pattern of healthy heart motion allows for quick detection of regions of interests, which can then be analyzed in more detail by looking at the actual time series. We evaluated our approach in a qualitative user study with imaging and medical experts. The participants appreciated the proposed encoding and considered it a substantial improvement over the current methods.
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    Parameterization and Feature Extraction for the Visualization of Tree-like Structures
    (The Eurographics Association, 2018) Lichtenberg, Nils; Lawonn, Kai; Puig Puig, Anna and Schultz, Thomas and Vilanova, Anna and Hotz, Ingrid and Kozlikova, Barbora and Vázquez, Pere-Pau
    The study and visualization of vascular structures, using 3D models obtained from medical data, is an active field of research. Illustrative visualizations have been applied to this domain in multiple ways. Researchers have tried to make the geometric properties of vasculature more comprehensive and to augment the surface with representations of multivariate clinical data. Techniques that head beyond the application of color-maps or simple shading approaches require a sort of surface parameterization, i.e., texture coordinates, in order to overcome locality. When extracting 3D models, the computation of texture coordinates on the mesh is not always part of the data processing pipeline. We combine existing techniques to a simple, yet effective, parameterization approach that is suitable for tree-like structures. The parameterization is done w.r.t. to a pre-defined source vertex. For this, we present an automatic algorithm, that detects the root of a tree-structure. The parameterization is partly done in screen-space and recomputed per frame. However, the screen-space computation comes with positive features that are not present in object-space approaches. We show how the resulting texture coordinates can be used for varying hatching, contour parameterization, the display of decals, as an additional depth cue and feature extraction.
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    Estimation of Muscle Activity in One-Leg Stance from 3D Surface Deformation
    (The Eurographics Association, 2018) Metzler, Johannes; Neumann, Thomas; Gassel, Stefanie; Friedrich, Jens; Wacker, Markus; Puig Puig, Anna and Schultz, Thomas and Vilanova, Anna and Hotz, Ingrid and Kozlikova, Barbora and Vázquez, Pere-Pau
    Muscular activity during human motion is usually quantified by measuring the electrical potential during muscle activation using electromyography (EMG). However, apart from producing electrical activity, muscular contraction of many skeletal muscles also induces subtle deformation of the skin surface. In this paper, we present a method to estimate muscular activation from such 3D skin deformation. To this end, we introduce a capture system that reconstructs the 3D motion of the skin from multi-view video data and simultaneously measures true muscle activity with EMG sensors. Our data reveals strong correlations between the skin deformation and muscular activity during one-leg stances. We propose a pose normalization procedure and a novel model based on Supervised Principal Component Regression that automatically segments individual muscles and estimates their activation from 3D surface deformation. Our evaluation shows that the model generalizes to varying body shapes and that the estimated activation closely fits the measured EMG data.
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    VisualFlatter - Visual Analysis of Distortions in the Projection of Biomedical Structures
    (The Eurographics Association, 2018) Grossmann, Nicolas; Köppel, Thomas; Gröller, Eduard; Raidou, Renata Georgia; Puig Puig, Anna and Schultz, Thomas and Vilanova, Anna and Hotz, Ingrid and Kozlikova, Barbora and Vázquez, Pere-Pau
    Projections of complex anatomical or biological structures from 3D to 2D are often used by visualization and domain experts to facilitate inspection and understanding. Representing complex structures, such as organs or molecules, in a simpler 2D way often requires less interaction, while enabling comparability. However, the most commonly employed projection methods introduce size or shape distortions, in the resulting 2D representations. While simple projections display known distortion patterns, more complex projection algorithms are not easily predictable.We propose the VisualFlatter, a visual analysis tool that enables visualization and domain experts to explore and analyze projection-induced distortions, in a structured way. Our tool provides a way to identify projected regions with semantically relevant distortions and allows users to comparatively analyze distortion outcomes, either from alternative projection methods or due to different setups through the projection pipeline. The user is given the ability to improve the initial projection configuration, after comparing different setups. We demonstrate the functionality of our tool using four scenarios of 3D to 2D projections, conducted with the help of domain or visualization experts working on different application fields. We also performed a wider evaluation with 13 participants, familiar with projections, to assess the usability and functionality of the Visual Flatter.
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    Global and Local Mesh Morphing for Complex Biological Objects from µCT Data
    (The Eurographics Association, 2018) Knötel, David; Becker, Carola; Scholtz, Gerhard; Baum, Daniel; Puig Puig, Anna and Schultz, Thomas and Vilanova, Anna and Hotz, Ingrid and Kozlikova, Barbora and Vázquez, Pere-Pau
    We show how biologically coherent mesh models of animals can be created from µCT data to generate artificial yet naturally looking intermediate objects. The whole pipeline of processing algorithms is presented, starting from generating topologically equivalent surface meshes, followed by solving the correspondence problem, and, finally, creating a surface morphing. In this pipeline, we address all the challenges that are due to dealing with complex biological, non-isometric objects. For biological objects it is often particularly important to obtain deformations that look as realistic as possible. In addition, spatially non-uniform shape morphings that only change one part of the surface and keep the rest as stable as possible are of interest for evolutionary studies, since functional modules often change independently from one another. We use Poisson interpolation for this purpose and show that it is well suited to generate both global and local shape deformations.
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    Improving Perception of Molecular Surface Visualizations by Incorporating Translucency Effects
    (The Eurographics Association, 2018) Hermosilla, Pedro; Maisch, Sebastian; Vázquez, Pere-Pau; Ropinski, Timo; Puig Puig, Anna and Schultz, Thomas and Vilanova, Anna and Hotz, Ingrid and Kozlikova, Barbora and Vázquez, Pere-Pau
    Molecular surfaces are a commonly used representation in the analysis of molecular structures as they provide a compact description of the space occupied by a molecule and its accessibility. However, due to the high abstraction of the atomic data, fine grain features are hard to identify. Moreover, these representations involve a high degree of occlusions, which prevents the identification of internal features and potentially impacts shape perception. In this paper, we present a set of techniques which are inspired by the properties of translucent materials, that have been developed to improve the perception of molecular surfaces: First, we introduce an interactive algorithm to simulate subsurface scattering for molecular surfaces, in order to improve the thickness perception of the molecule. Second, we present a technique to visualize structures just beneath the surface, by still conveying relevant depth information. And lastly, we introduce reflections and refractions into our visualization that improve the shape perception of molecular surfaces. We evaluate the benefits of these methods through crowd-sourced user studies as well as the feedback from several domain experts.
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    Semantic Screen-Space Occlusion for Multiscale Molecular Visualization
    (The Eurographics Association, 2018) Koch, Thomas Bernhard; Kouril, David; Klein, Tobias; Mindek, Peter; Viola, Ivan; Puig Puig, Anna and Schultz, Thomas and Vilanova, Anna and Hotz, Ingrid and Kozlikova, Barbora and Vázquez, Pere-Pau
    Visual clutter is a major problem in large biological data visualization. It is often addressed through the means of level of detail schemes coupled with an appropriate coloring of the visualized structures. Ambient occlusion and shadows are often used to improve the depth perception. However, when used excessively, these techniques are sources of visual clutter themselves. In this paper we present a new approach to screen-space illumination algorithms suitable for use in illustrative visualization. The illumination effect can be controlled so that desired levels of semantic scene organization cast shadows while other remain flat. This way the illumination design can be parameterized to keep visual clutter, originating from illumination, to a minimum, while also guiding the user in a multiscale model exploration. We achieve this by selectively applying occlusion shading based on the inherent semantics of the visualized hierarchically-organized data. The technique is in principle generally applicable to any hierarchically organized 3D scene and has been demonstrated on an exemplary scene from integrative structural biology.
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    Visual Exploratory Analysis for Multiple T-Maze Studies
    (The Eurographics Association, 2018) Bechtold, Fabrizia; Splechtna, Rainer; Matkovic, Kresimir; Puig Puig, Anna and Schultz, Thomas and Vilanova, Anna and Hotz, Ingrid and Kozlikova, Barbora and Vázquez, Pere-Pau
    Evaluation of spatial learning and memory in rodents is commonly carried out using different maze settings such as the Multiple T-Maze. State-of-the-art analysis is primarily based on statistics of quantitative measures stemming from animal trajectories in a maze, e.g. path length or correct decisions made. Currently trajectories themselves are analyzed and evaluated one at a time and comparison of multiple trajectories is a tedious task. The resulting findings may not fully answer complex questions that behavioral researchers encounter as well, e.g., why do animals behave in a certain way or can atypical behaviour be detected? This paper describes an innovative approach on how exploratory analysis for Multiple T-Maze studies can be enhanced through interactive visual analysis. We explain our solution for analyzing a whole ensemble of data at once and support the finding of orientational characteristics and migration patterns within the ensemble. We also abstract the analysis tasks for Multiple TMaze studies and, based on these tasks, we extend a coordinated multiple views system to support the solving of fundamental problems which behavioral researchers face. Besides views of standard charts we deploy a multi-resolution heat map and the Gate-O-Gon, which is a novel visual element. It gives clues on the animals' general movement orientation and distribution of revisited gates, as well as enhances the discovery of patterns in movement and identifying of irregular behavior. Finally we demonstrate the usefulness of the newly proposed approach using a real life data set consisting of 400 Multiple T-Maze runs.