Enhanced coronary calcium visualization and detection from dual energy chest x-rays with sliding organ registration. Read more about Enhanced coronary calcium visualization and detection from dual energy chest x-rays with sliding organ registration.
The role of acquisition and quantification methods in myocardial blood flow estimability for myocardial perfusion imaging CT. Read more about The role of acquisition and quantification methods in myocardial blood flow estimability for myocardial perfusion imaging CT.
IMPACT OF CALCIUM QUANTIFICATIONS ON STENT EXPANSIONS. Read more about IMPACT OF CALCIUM QUANTIFICATIONS ON STENT EXPANSIONS.
Calibration-free beam hardening correction for myocardial perfusion imaging using CT. Read more about Calibration-free beam hardening correction for myocardial perfusion imaging using CT.
SLICR super-voxel algorithm for fast, robust quantification of myocardial blood flow by dynamic computed tomography myocardial perfusion imaging. Read more about SLICR super-voxel algorithm for fast, robust quantification of myocardial blood flow by dynamic computed tomography myocardial perfusion imaging.
Oct-based Modeling of Stent Deployment in Heavily Calcified Coronary Lesion. Read more about Oct-based Modeling of Stent Deployment in Heavily Calcified Coronary Lesion.
Automated plaque characterization using deep learning on coronary intravascular optical coherence tomographic images. Read more about Automated plaque characterization using deep learning on coronary intravascular optical coherence tomographic images.
Segmentation of Coronary Calcified Plaque in Intravascular OCT Images Using a Two-Step Deep Learning Approach. Read more about Segmentation of Coronary Calcified Plaque in Intravascular OCT Images Using a Two-Step Deep Learning Approach.
Quantitative and qualitative evaluation of deep learning automatic segmentations of corneal endothelial cell images of reduced image quality obtained following cornea transplant. Read more about Quantitative and qualitative evaluation of deep learning automatic segmentations of corneal endothelial cell images of reduced image quality obtained following cornea transplant.
