Morphology of cardiovascular tissue is influenced by the unsteady behavior of the blood flow
and vice versa. Therefore, the pathogenesis of several cardiovascular diseases is directly …

Lumped parameter models of the cardiovascular system have the potential to assist
researchers and clinicians to better understand cardiovascular function. The value of such …

Objective: This paper presents preliminary methods of incorporating the pathological
conditions of cardiac arrhythmias and valvular stenosis in hybrid mock circulation loop …

Background Zero-dimensional (lumped parameter) and one dimensional models, based on
simplified representations of the components of the cardiovascular system, can contribute …

Purpose Hemodynamic simulations are of increasing interest for the assessment of
aneurysmal rupture risk and treatment planning. Achievement of accurate simulation results …

Non-invasive hemodynamic assessment of total cavopulmonary connection (TCPC) is
challenging due to the complex anatomy. Additive manufacturing (AM) is a suitable …

Biological flows involve complex fluids flowing through three-dimensional (3D) deformable
and permeable tissues and organs and within artificial organs that support either intra-or …

The purpose of this study is to investigate how the imposition of personalized, non-invasively
measured blood flow rates as boundary conditions (BCs) influences image-based …

Image guided computational fluid dynamics is attracting increasing attention as a tool for
refining in vivo flow measurements or predicting the outcome of different surgical scenarios …

Physiological feasibility is the most important requirement for cardiovascular circulatory
simulators (CCS s). However, previous simulators have been validated by a comparison …