To this end, a statistical shape model of the LV anatomy is learned from high-resolution multi-slice CT data. Reconstruction is based on a non-rigid 2-D/3-D ...

The novelty of our approach is that anatomical a-priori information is learned from high-resolution CT image data and modeled as a statistical shape model (SSM) ...

To this end, a statistical shape model of the LV anatomy is learned from high-resolution multi-slice CT data. Reconstruction is based on a non-rigid 2-D/3-D ...

Model-based 3-D LV shape recovery in biplane x-ray angiography: A-priori information learned from CT. September 2015. DOI:10.1109/CIC.2015.7408596.

Bibliographic details on Model-based 3-D LV Shape Recovery in Biplane X-Ray Angiography: A-Priori Information Learned from CT.

Model-based 3-D LV shape recovery in biplane x-ray angiography: A-priori information learned from CT. Swoboda, Roland;Scharinger, Josef ...

In this work, a 3-D statistical shape model (SSM) of the left ventricular (LV) anatomy is learned from high-resolution. CT data and utilized as a-priori ...

In this work, a novel approach for recovering the 3-D LV shape from bi-planar X-ray images is presented. The sparse and noisy data available for reconstruction ...

Apr 25, 2024 · Model-based 3-D LV Shape Recovery in Biplane X-Ray Angiography: A-Priori Information Learned from CT. CinC 2015: 101-104. [+][–]. 2000 – 2009.

ABSTRACT. Recovering the 3D shape of the left ventricle from contrast-enhanced bi-planar x-ray image sequences is a challenging task.