Article | Proceedings of SIGRAD 2016, May 23rd and 24th, Visby, Sweden | Interactive 4D MRI blood flow exploration and analysis using line predicates
Göm menyn

Title:
Interactive 4D MRI blood flow exploration and analysis using line predicates
Author:
Jochen Jankowai: Department of Science and Technology, University of Linköping, Sweden Rickard Englund: Department of Science and Technology, University of Linköping, Sweden Timo Ropinski: Department of Science and Technology, University of Linköping, Sweden / Institute of Media Informatics, Ulm University, Germany Ingrid Hotz: Department of Science and Technology, University of Linköping, Sweden
Download:
Full text (pdf)
Year:
2016
Conference:
Proceedings of SIGRAD 2016, May 23rd and 24th, Visby, Sweden
Issue:
127
Article no.:
006
Pages:
35-42
No. of pages:
8
Publication type:
Abstract and Fulltext
Published:
2016-05-30
ISBN:
978-91-7685-731-1
Series:
Linköping Electronic Conference Proceedings
ISSN (print):
1650-3686
ISSN (online):
1650-3740
Publisher:
Linköping University Electronic Press, Linköpings universitet


Export in BibTex, RIS or text

We present an interactive exploration tool for 4D PC-MRI blood flow data that incorporates established rendering and filtering methods and combine them into one application. These methods include advanced line illumination, interactively adjustable spatial context visualization and blood flow analysis using line predicates.

Keywords: 4D MRI blood flow visualization Line predicates Line illumination Spatial context visualization

Proceedings of SIGRAD 2016, May 23rd and 24th, Visby, Sweden

Author:
Jochen Jankowai, Rickard Englund, Timo Ropinski, Ingrid Hotz
Title:
Interactive 4D MRI blood flow exploration and analysis using line predicates
References:

[Ban94] BANKS D. C.: Illumination in Diverse Codimensions. In Proceedings of the 21st Annual Conference on Computer Graphics and Interactive Techniques (New York, NY, USA, 1994), SIGGRAPH ’94, ACM, pp. 327–334. 2, 4, 7


[BB99] BOGREN H. G., BUONOCORE M. H.: 4D magnetic resonance velocity mapping of blood flow patterns in the aorta in young vs. elderly normal subjects. Journal of Magnetic Resonance Imaging 10, 5 (1999), 861–869. 2


[BBLM10] BARKER A., BOCK J., LORENZ R., MARKL M.: 4D flow MR imaging. MAGNETOM Flash (2010), 46–52. 2


[BPE*15] BUSTAMANTE M., PETERSSON S., ERIKSSON J., ALEHAGEN U., DYVERFELDT P., CARLHALL C. J., EBBERS T.: Atlas-based analysis of 4D flow CMR: automated vessel segmentation and flow quantification. J Cardiovasc Magn Reson 17(2015), 87. 3


[BPMS12] BORN S., PFEIFLE M., MARKL M., SCHEUERMANN G.: Visual 4D MRI blood flow analysis with line predicates. In Pacific Visualization Symposium (PacificVis), 2012 IEEE (Feb 2012), pp. 105–112. 1, 2


[Buo98] BUONOCORE M. H.: Visualizing blood flow patterns using streamlines, arrows, and particle paths. Magn Reson Med 40, 2 (Aug 1998), 210–226. 2


[CG00] CIPOLLA R., GIBLIN P.: Visual Motion of Curves and Surfaces. Cambridge University Press, New York, NY, USA, 2000. 2, 3


[DFRS03] DECARLO D., FINKELSTEIN A., RUSINKIEWICZ S., SANTELLA A.: Suggestive Contours for Conveying Shape. ACM Transactions on Graphics (Proc. SIGGRAPH) 22, 3 (July 2003), 848–855. 3


[ECD10] ERIKSSON J., CARLHALL C. J., DYVERFELDT P., ENGVALL J., BOLGER A. F., EBBERS T.: Semi-automatic quantification of 4D left ventricular blood flow. J Cardiovasc Magn Reson 12 (2010), 9. 2


[GNKP10] GASTEIGER R., NEUGEBAUER M., KUBISCH C., PREIM B.: Adapted Surface Visualization of Cerebral Aneurysms with Embedded Blood Flow Information. In Eurographics Workshop on Visual Computing for Biology and Medicine (2010), Bartz D., Botha C., Hornegger J., Machiraju R., Wiebel A., Preim B., (Eds.), The Eurographics Association. 2


[HEWK03] HEIBERG E., EBBERS T., WIGSTROM L., KARLSSON M.: Three-dimensional flow characterization using vector pattern matching. IEEE Transactions on Visualization and Computer Graphics 9, 3 (July 2003), 313–319. 2


[HSU*10] HEIBERG E., SJOGREN J., UGANDER M., CARLSSON M., ENGBLOM H., ARHEDEN H.: Design and validation of Segment–freely available software for cardiovascular image analysis. BMC Med Imaging 10 (2010), 1. 2


[InV15] INVIWO: InViWo Overview, 2015. 2


[KGG*12] KRISHNAN H., GARTH C., GUHRING J., GULSUN M. A., GREISER A., JOY K. I.: Analysis of time-dependent flow-sensitive PC-MRI data. IEEE Trans Vis Comput Graph 18, 6 (Jun 2012), 966–977. 2


[KYW*00] KILNER P. J., YANG G.-Z., WILKES A. J., MOHIADDIN R. H., FIRMIN D. N., YACOUB M. H.: Asymmetric redirection of flow through the heart. Nature 404, 6779 (Apr 2000), 759–761. 1


[MCA*03] MARKL M., CHAN F. P., ALLEY M. T., WEDDING K. L., DRANEY M. T., ELKINS C. J., PARKER D. W., WICKER R., TAYLOR C. A., HERFKENS R. J., PELC N. J.: Timeresolved three-dimensional phase-contrast MRI. J Magn Reson Imaging 17, 4 (Apr 2003), 499–506. 2


[MKE11] MARKL M., KILNER P. J., EBBERS T.: Comprehensive 4D velocity mapping of the heart and great vessels by cardiovascular magnetic resonance. Journal of Cardiovascular Magnetic Resonance 13, 1 (2011), 1–22. 2


[MPSS05] MALLO O., PEIKERT R., SIGG C., SADLO F.: Illuminated lines revisited. In Visualization, 2005. VIS 05. IEEE (Oct 2005), pp. 19–26. 2, 4


[NJB*11] NEUGEBAUER M., JANIGA G., BEUING O., SKALEJ M., PREIM B.: Anatomy-Guided Multi-Level Exploration of Blood Flow in Cerebral Aneurysms. Computer Graphics Forum 30, 3 (2011), 1041–1050. 2


[Pho75] PHONG B. T.: Illumination for Computer Generated Pictures. Commun. ACM 18, 6 (June 1975), 311–317. 4


[SAG*14] STANKOVIC Z., ALLEN B. D., GARCIA J., JARVIS K. B., MARKL M.: 4D flow imaging with MRI. Cardiovascular Diagnosis and Therapy 4, 2 (2014). 1


[SGSM08] SALZBRUNN T., GARTH C., SCHEUERMANN G., MEYER J.: Pathline predicates and unsteady flow structures. The Visual Computer 24, 12 (2008), 1039–1051. 1, 2, 3


[SS06] SALZBRUNN T., SCHEUERMANN G.: Streamline Predicates. IEEE Transactions on Visualization and Computer Graphics 12, 6 (Nov 2006), 1601–1612. 1, 2


[STH*09] SHI K., THEISEL H., HAUSER H., WEINKAUF T., MATKOVIC K., HEGE H.-C., SEIDEL H.-P.: Topology-Based Methods in Visualization II. Springer Berlin Heidelberg, Berlin, Heidelberg, 2009, ch. Path Line Attributes - an Information Visualization Approach to Analyzing the Dynamic Behavior of 3D Time-Dependent Flow Fields, pp. 75–88. 2


[vPBB*10] VAN PELT R., BESCOS J. O., BREEUWER M., CLOUGH R. E., GROLLER M. E., TER HAAR ROMENIJ B., VILANOVA A.: Exploration of 4D MRI Blood Flow using Stylistic Visualization. IEEE Transactions on Visualization and Computer Graphics 16, 6 (Nov 2010), 1339–1347. 2


[vPBB*11] VAN PELT R., BESCOS J. O., BREEUWER M., CLOUGH R. E., GROLLER M. E., TER HAAR ROMENIJ B., VILANOVA A.: Interactive Virtual Probing of 4D MRI Blood-Flow. IEEE Transactions on Visualization and Computer Graphics 17, 12 (Dec 2011), 2153–2162. 2


[Wor15] WORLD HEALTH ORGANIZATION: Global Health Observatory visualizations, Causes of death - Ten leading causes of death, 2012, 2015. 1

Proceedings of SIGRAD 2016, May 23rd and 24th, Visby, Sweden

Author:
Jochen Jankowai, Rickard Englund, Timo Ropinski, Ingrid Hotz
Title:
Interactive 4D MRI blood flow exploration and analysis using line predicates
Note: the following are taken directly from CrossRef
Citations:
No citations available at the moment


Responsible for this page: Peter Berkesand
Last updated: 2017-02-21