[HTML][HTML] Mechanisms of aortic dissection: from pathological changes to experimental and in silico models
Aortic dissection continues to be responsible for significant morbidity and mortality, although
recent advances in medical data assimilation and in experimental and in silico models have …
recent advances in medical data assimilation and in experimental and in silico models have …
Temporal geometric mapping defines morphoelastic growth model of Type B aortic dissection evolution
K Khabaz, J Kim, R Milner, N Nguyen… - Computers in Biology …, 2024 - Elsevier
The human aorta undergoes complex morphologic changes that mirror the evolution of
disease. Finite element analysis (FEA) enables the prediction of aortic pathologic states, but …
disease. Finite element analysis (FEA) enables the prediction of aortic pathologic states, but …
SynthAorta: A 3D Mesh Dataset of Parametrized Physiological Healthy Aortas
The effects of the aortic geometry on its mechanics and blood flow, and subsequently on
aortic pathologies, remain largely unexplored. The main obstacle lies in obtaining patient …
aortic pathologies, remain largely unexplored. The main obstacle lies in obtaining patient …
Thoracic Aortic Shape: A Data-Driven Scale Space Approach
JA Pugar, J Kim, K Khabaz, K Yuan, L Pocivavsek - medRxiv, 2024 - medrxiv.org
The scale and resolution of anatomical features extracted from medical CT images are
crucial for advancing clinical decision-making tools. While traditional metrics, such as …
crucial for advancing clinical decision-making tools. While traditional metrics, such as …
A Patient-Specific Morphoelastic Growth Model of Aortic Dissection Evolution
K Khabaz, J Kim, R Milner, N Nguyen, L Pocivavsek - bioRxiv, 2024 - biorxiv.org
The human aorta undergoes complex morphologic changes that indicate the evolution of
disease. Finite element analysis enables the prediction of aortic pathologic states, but the …
disease. Finite element analysis enables the prediction of aortic pathologic states, but the …