Current and Past Research Projects Using Voreen

Ultramicroscopy Data Analysis

(Images done by Jan Prodöhl at Max Planck Institute for Molecular Biomedicine)

Merge Tn At03c1 Sbp 6882 Aorta 16x Clipped Quadview B Tn

Ultramicroscopic analysis of a murine
aortic arch (MIP volume rendering)

Ultramicroscopic analysis of a murine
aortic arch, MIP volume rendering and
slice views
At03c1 Sbp 6882 Cuff 125x Poster Tn

Ultramicroscopic analysis of a murine
common carotid artery (MIP volume
rendering)

Streamline Visualization

(Images done by Philipp Bovenkamp at the Research Group for Magnetic Resonance of the University of Münster)

Cim Bilderwettbewerb Bovenkamp Neueversion Tn Vessels Zoom Directionencoding New Ps Tn

Four-dimensional streamlines display
the shape of the blood vessels and
depict the temporal and spatial
dynamics of blood flow.

Reference:
EinBlicke – Biomedizin und Bildgebung
(Exhibition at Wissenschaftszentrum
Bonn, 03/06/2015 – 05/25/2015)

Zoom into the reconstruction of the
blood flow in aorta and pulmonary trunk.

Reference:
Velocity Mapping of the aortic flow at 9.4 T
in healthy mice and mice with induced heart
failure using time-resolved three-dimensional
phase-contrast MRI (4D PC MRI)

Frame01 Tn

Frame02 Tn

Early systolic blood flow visualization of
great arteries of the heart with stream-
line reconstruction from velocity-encoded
magnetic resonance imaging data.

Reference:
Velocity Mapping of the aortic flow at 9.4 T
in healthy mice and mice with induced heart
failure using time-resolved three-dimensional
phase-contrast MRI (4D PC MRI)

Systolic blood flow visualization of great
arteries of the heart with streamline
reconstruction from velocity-encoded
magnetic resonance imaging data.

Reference:
Velocity Mapping of the aortic flow at 9.4 T
in healthy mice and mice with induced heart
failure using time-resolved three-dimensional
phase-contrast MRI (4D PC MRI)

Miscellaneous Research Projects

(Images listed in no particular order, for details see the related publications)

Gallery-glyphs Tn Engine-refraction Tn

Reference:
Surface Glyphs for Visualizing
Multimodal Volume Data

Reference:
Advanced Illumination Techniques for
GPU-Based Volume Ray-Casting
Convection Tn Ischaemie1 Tn

Reference:
A GPU-Supported Lossless
Compression Scheme for Rendering
Time-Varying Volume Data

Reference:
Glyph Based SPECT Visualization for
the Diagnosis of Coronary Artery
Disease
Gallery-hand Tn Gallery-head Tn

Reference:
Interactive Cutting Operations for
Generating Anatomical Illustrations
from Volumetric Data Sets

Reference:
Interactive Cutting Operations for
Generating Anatomical Illustrations
from Volumetric Data Sets
Gallery-labelshand Tn Gallery-labelsheart Tn

Reference:
Internal Labels as Shape Cues for
Medical Illustration

Reference:
Internal Labels as Shape Cues for
Medical Illustration
Gallery-shadows0 Tn Gallery-shadows1 Tn

Reference:
Efficient Shadows for GPU-based
Volume Raycasting

Reference:
Efficient Shadows for GPU-based
Volume Raycasting
Hand Tn Head Tn

Reference:
Interactive Volume Rendering with
Dynamic Ambient Occlusion and Color
Bleeding

Reference:
Interactive Volume Rendering with
Dynamic Ambient Occlusion and Color
Bleeding
Hand 1 Tn Brdf-engine Tn

Reference:
Advanced Light Material Interaction
for Direct Volume Rendering

Reference:
Advanced Light Material Interaction
for Direct Volume Rendering
Mouse Tn

Reference:
Interactive Volumetric Lighting
Simulating Scattering and Shadowing