Tissue-engineered Collagenous Fibrous Cap Models to Systematically Elucidate Atherosclerotic Plaque Rupture.

Abstract: A significant amount of vascular thrombotic events is associated with rupture of the fibrous cap that overlie atherosclerotic plaques. Cap rupture is however difficult to predict due to the heterogenous composition of the plaque, unknown material properties, and the stochastic nature of the event. Here, we aim to create tissue engineered human fibrous cap models with a variable but controllable collagen composition, suitable for mechanical testing, to scrutinize the reciprocal relationships between composition… Show more

“…The atherosclerotic plaque of mice differs considerably in its biomechanical composition compared to human plaques and is considered resistant to plaque rupture [71]. The use of tissue-engineered plaques to study the mechanical properties of human plaque could be an interesting alternative [72 ▪ ].…”

Vascular stiffening and endothelial dysfunction in atherosclerosis

“…The atherosclerotic plaque of mice differs considerably in its biomechanical composition compared to human plaques and is considered resistant to plaque rupture [71]. The use of tissue-engineered plaques to study the mechanical properties of human plaque could be an interesting alternative [72 ▪ ].…”

Vascular stiffening and endothelial dysfunction in atherosclerosis