Distance Visualizations for Vascular Structures in Desktop and VR: Overview and Implementation

Abstract
The role of expressive surface visualizations in rendering vascular structures has seen an increased impact over the last years. Surface visualizations provide an overview of complex anatomical structures and support treatment planning as well as medical education. To support decision-making, physicians need visualizations that depict anatomical structures and their spatial relations to each other, i.e., well perceivable visual encodings of egocentric and endocentric distances. We give an overview of common techniques for encoding distance information of 3D vessel surfaces. We also provide an implementation of all the visualizations presented as a starting point for other researchers. Therefore, we provide a Unity environment for each visualization, as well as implementation instructions. Thirteen different visualizations are included in this work, which can be divided into fundamental, surface-based, auxiliary and illustrative visualizations.
Description

CCS Concepts: Human-centered computing → Visualization; Visualization toolkits; Computer systems organization → Real-time systems"

        
@inproceedings{
10.2312:vcbm.20221182
, booktitle = {
Eurographics Workshop on Visual Computing for Biology and Medicine
}, editor = {
Renata G. Raidou
and
Björn Sommer
and
Torsten W. Kuhlen
and
Michael Krone
and
Thomas Schultz
and
Hsiang-Yun Wu
}, title = {{
Distance Visualizations for Vascular Structures in Desktop and VR: Overview and Implementation
}}, author = {
Hombeck, Jan
and
Meuschke, Monique
and
Lieb, Simon
and
Lichtenberg, Nils
and
Datta, Rabi
and
Krone, Michael
and
Hansen, Christian
and
Preim, Bernhard
and
Lawonn, Kai
}, year = {
2022
}, publisher = {
The Eurographics Association
}, ISSN = {
2070-5786
}, ISBN = {
978-3-03868-177-9
}, DOI = {
10.2312/vcbm.20221182
} }
Citation