3D registration of intravascular optical coherence tomography and cryo-image volumes for microscopic-resolution validation. Read more about 3D registration of intravascular optical coherence tomography and cryo-image volumes for microscopic-resolution validation.
Effect of Beam Hardening on Transmural Myocardial Perfusion Quantification in Myocardial CT Imaging. Read more about Effect of Beam Hardening on Transmural Myocardial Perfusion Quantification in Myocardial CT Imaging.
Automatic Stem Cell Detection in Microscopic Whole Mouse Cryo-Imaging. Read more about Automatic Stem Cell Detection in Microscopic Whole Mouse Cryo-Imaging.
Quantitative myocardial perfusion imaging in a porcine ischemia model using a prototype spectral detector CT system. Read more about Quantitative myocardial perfusion imaging in a porcine ischemia model using a prototype spectral detector CT system.
Three-dimensional registration of intravascular optical coherence tomography and cryo-image volumes for microscopic-resolution validation. Read more about Three-dimensional registration of intravascular optical coherence tomography and cryo-image volumes for microscopic-resolution validation.
Target Lesion Calcium Arc Influence the Performance of Stenting. Read more about Target Lesion Calcium Arc Influence the Performance of Stenting.
Detection and quantification of coronary calcium from dual energy chest x-rays: Phantom feasibility study. Read more about Detection and quantification of coronary calcium from dual energy chest x-rays: Phantom feasibility study.
OCT-BASED THREE DIMENSIONAL MODELING OF STENT DEPLOYMENT. Read more about OCT-BASED THREE DIMENSIONAL MODELING OF STENT DEPLOYMENT.
Voxel-based plaque classification in coronary intravascular optical coherence tomography images using decision trees. Read more about Voxel-based plaque classification in coronary intravascular optical coherence tomography images using decision trees.
SLIC robust (SLICR) processing for fast, robust CT myocardial blood flow quantification. Read more about SLIC robust (SLICR) processing for fast, robust CT myocardial blood flow quantification.
