Paper
16 March 2009 Elasticity-based three dimensional ultrasound real-time volume rendering
Emad M. Boctor, Mohammad Matinfar, Omar Ahmad, Hassan Rivaz, Michael Choti, Russell H. Taylor
Author Affiliations +
Abstract
Volumetric ultrasound imaging has not gained wide recognition, despite the availability of real-time 3D ultrasound scanners and the anticipated potential of 3D ultrasound imaging in diagnostic and interventional radiology. Their use, however, has been hindered by the lack of real-time visualization methods that are capable of producing high quality 3D rendering of the target/surface of interest. Volume rendering is a known visualization method, which can display clear surfaces out of the acquired volumetric data, and has an increasing number of applications utilizing CT and MRI data. The key element of any volume rendering pipeline is the ability to classify the target/surface of interest by setting an appropriate opacity function. Practical and successful real-time 3D ultrasound volume rendering can be achieved in Obstetrics and Angio applications where setting these opacity functions can be done rapidly, and reliably. Unfortunately, 3D ultrasound volume rendering of soft tissues is a challenging task due to the presence of significant amount of noise and speckle. Recently, several research groups have shown the feasibility of producing 3D elasticity volume from two consecutive 3D ultrasound scans. This report describes a novel volume rendering pipeline utilizing elasticity information. The basic idea is to compute B-mode voxel opacity from the rapidly calculated strain values, which can also be mixed with conventional gradient based opacity function. We have implemented the volume renderer using GPU unit, which gives an update rate of 40 volume/sec.
© (2009) COPYRIGHT Society of Photo-Optical Instrumentation Engineers (SPIE). Downloading of the abstract is permitted for personal use only.
Emad M. Boctor, Mohammad Matinfar, Omar Ahmad, Hassan Rivaz, Michael Choti, and Russell H. Taylor "Elasticity-based three dimensional ultrasound real-time volume rendering", Proc. SPIE 7261, Medical Imaging 2009: Visualization, Image-Guided Procedures, and Modeling, 72612V (16 March 2009); https://doi.org/10.1117/12.815166
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CITATIONS
Cited by 2 scholarly publications.
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KEYWORDS
Opacity

Ultrasonography

Volume rendering

3D image processing

3D acquisition

Tissues

Visualization

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