[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 …
Decoding thrombosis through code: a review of computational models
From the molecular level up to a blood vessel, thrombosis and hemostasis involves many
interconnected biochemical and biophysical processes over a wide range of length and time …
interconnected biochemical and biophysical processes over a wide range of length and time …
Integrating blood cell mechanics, platelet adhesive dynamics and coagulation cascade for modelling thrombus formation in normal and diabetic blood
Normal haemostasis is an important physiological mechanism that prevents excessive
bleeding during trauma, whereas the pathological thrombosis especially in diabetics leads …
bleeding during trauma, whereas the pathological thrombosis especially in diabetics leads …
Rapid suture-free repair of arterial bleeding: A novel approach with ultra-thin bioadhesive hydrogel membrane
S Luo, L Yang, Q Zou, D Yuan, S Xu, Y Zhao… - Chemical Engineering …, 2023 - Elsevier
Arterial injuries, particularly in emergency situations or challenging environments, demand
convenient, safe, and efficient repair strategies. Herein, we developed and evaluated a …
convenient, safe, and efficient repair strategies. Herein, we developed and evaluated a …
A three-dimensional phase-field model for multiscale modeling of thrombus biomechanics in blood vessels
Mechanical interactions between flowing and coagulated blood (thrombus) are crucial in
dictating the deformation and remodeling of a thrombus after its formation in hemostasis. We …
dictating the deformation and remodeling of a thrombus after its formation in hemostasis. We …
Speeding up and reducing memory usage for scientific machine learning via mixed precision
J Hayford, J Goldman-Wetzler, E Wang, L Lu - Computer Methods in …, 2024 - Elsevier
Scientific machine learning (SciML) has emerged as a versatile approach to address
complex computational science and engineering problems. Within this field, physics …
complex computational science and engineering problems. Within this field, physics …
Computational investigation of blood cell transport in retinal microaneurysms
Microaneurysms (MAs) are one of the earliest clinically visible signs of diabetic retinopathy
(DR). MA leakage or rupture may precipitate local pathology in the surrounding neural retina …
(DR). MA leakage or rupture may precipitate local pathology in the surrounding neural retina …
Computational modeling of blood component transport related to coronary artery thrombosis in Kawasaki disease
N Grande Gutiérrez, M Alber, AM Kahn… - PLoS computational …, 2021 - journals.plos.org
Coronary artery thrombosis is the major risk associated with Kawasaki disease (KD). Long-
term management of KD patients with persistent aneurysms requires a thrombotic risk …
term management of KD patients with persistent aneurysms requires a thrombotic risk …
Model-based fluid-structure interaction approach for evaluation of thoracic endovascular aortic repair endograft length in type B aortic dissection
Thoracic endovascular aortic repair (TEVAR) is a commonly performed operation for
patients with type B aortic dissection (TBAD). The goal of TEVAR is to cover the proximal …
patients with type B aortic dissection (TBAD). The goal of TEVAR is to cover the proximal …
Coagulo-Net: Enhancing the mathematical modeling of blood coagulation using physics-informed neural networks
Blood coagulation, which involves a group of complex biochemical reactions, is a crucial
step in hemostasis to stop bleeding at the injury site of a blood vessel. Coagulation …
step in hemostasis to stop bleeding at the injury site of a blood vessel. Coagulation …